Rhoades' Stocks

Rhoades #	genotype of parents	comments
25248	c1 sh wx1 gl15 (sib cross)	occasionally has large pollen grains = 2N ?
25308	c1 sh wx1 gl15; y X T 6-9b/2 ; N10, 9KS (het ?) (23478 X 24128-22)	backcross for C Sh Wx1; Y marking translocated chromosomes; (69 may have wd); 25308 from C1 Sh Wx1; Y seeds
28275	K10 / k10; wd Wx1 / wd wx X homozygous R9 wx1, rearranged chrom 9 (25994-21 X 25991-5)	ears segregate I-C mosaics = small ring-9 with Wd and I; 28275 from C1 Wx1 seeds
28277	wd1 C1 sh1 bz1 wx1 sib	28277 from I-C1 mosaic sh1 bz1 wx1 seed, has ring chromosome, see above
30096	yg1 c? Wx1; A1; R1-K10 / yg1 c? Wx1; a1; R1-N10 x yg1 C1 sh1 bz1 Wx1/wx1 (29787 x 29716-1)	30096 from Pr Wx seeds, ear had 102Wx:11 wx, used for vigorous yg2 stock
30142	d1 + lg2 a1 / + gl6 lg2 a1 sib	30142 = a1 Dt seeds
30418	Wx1; y1; r high knob ; K10K10 x high loss (colored aleurone) ; (29799 x 29701-16 with 4 B chromosomes)	30418 from R mottled seed
30423	high-knob stock rr; 28058 sib	may have 2 knobs on chr 1S + 1L ; 1 knob on chr 2L (?); 2 knobs on 3L + 3S; 1 knob on 4L, 1 knob on 5L; 1 knob on chr 6L, 1 knob on chr 7L, 1 knob on chr 8L, 0 knobs chr 9S, 1 knob on chr 10L; This stock is very weak
30780	Coop a1 B1 Pl1 x b Pl / b pl; 30680 ¥ Ÿ	high loss; a/Df from hi-loss , 30780 from a1 seeds
30785	5 B chromosomes, high loss , colored aleurone x 8 B chromosomes, high loss colored aleurone; (30127-17 x 30128-13)	has large knob on 3L, shows loss of A1 and Sh2 when crossed as male X female a1 seeds; 30785 from Pr seeds
30827	dt1 yg2 sh1 wx1 (c1 ?) x (Nic / KYS) / Bl Mex w1 B's; (28991 a1a1 x 29080-10 t)	Nic = Nicaragua 3432, Tep 59-60; 8100 #2 / KL on 3L, 30827 from colored aleurone seeds, ear all col
30941	Inv 3a Gl1 Lg1 k1 A1 / N3 Rg1 gl1 lg1 k1 a1 x rg1 gl6 lg2 a1; (25389-A; Rg x 25398)	30941 from A seeds
30945	Gl1 Lg2 k A1 / gl1 lg2 K1 a1 x Inv3a Gl1 A1 K1 Lg1 ; K10 / Inv3a Gl1 a1 K1 Lg1; N10 3 B chromosomes ; (30490-7 x 30488-23)	30945 from A seeds
30993	lg2 a1 (Dt dt) A2 C1 R1 x K10 r/ N10 R; A1 A1 A2 A2 (Cc ?); (30142 x 30418-13) high knob, high loss	30993 from one exceptional a1 Dt may have a-mrh
31125	wd1 C1 Sh1 wx1 gl1 / yg1 c1 sh1 wx1 gl1 + Wd-ring; (26199 Ÿ)	31125 from mosaic I-C seed
31126	yg1 c1 sh1 wx1 gl15 / wd1 C1 Sh1 wx1 gl15 + ring; (26199 Ÿ)	31126 from mosaic I-C Sh seeds, (seg pr )
31159	high loss A1 A2 C1 R1 Pr1; (30785-19) x -20 has 7 B chromosomes	31159 from Pr seeds, with knob in 3L
31378	d1 Gl1 lg2 a1 / d1 gl1 lg1 a1 (homozygous or seg et); (31187 sib)	31378 from a1 Dt1, most are low dotted
31445	Inv3a Lg1 Na1 K1 A1 Sh1/ N1 lg1 na1 k1 a1 x lg1 na1 k1 a1 high loss backgrd (31162-4 good ¥ x 31163)	31162 is F1 for high-loss, background; 31445 from A seeds
31446	same as above	31446 from a seeds
31572	probably a1-mrh; pr /a1; pr; Mrh Ÿ ; (31169 Ÿ )	31572 from seeds with many dots + pr
31577	Black Mexican with B chromosomes; (29717-A sib)	31577 from colored su seeds
31601	Black Mexican su, no B chromosomes x d1 Gl1 lg2 a1 et1 / d1 gl1 lg1 a1 et1 (31189 x 31187)	31601 from Pr Su seeds
31602	d1 Gl1 lg2 a1 x d1 gl1 lg1 a1; 31187 sib	31602 from a1 seeds;
32332	KL9 C1 sh1 Wx1 high-loss, 1 B chromosome x I wx1; (32227-10 x 32291-3)	32332 from pale colored seeds;
32334	10 B chromosomes x 7 B's high loss stock; (30785-13 x -20)	32334 from colored seeds, (seg na plants)
32335	N10 Rg (high loss) x K10 Rg / N10 rg; (31841 x 32208-12)	introducing K10 into high loss, 32335 from colored seed; 12 red plants discarded, 7 green saved
32733	wd1 C1 sh1 bz1 wx1 / Rg C1 wx; y x c1 Wx1; A1 A2 R1 ;y; (32358-A x 32366)	32733 from Pr seeds
32734	K10 Rg/N10 r x W22 rg; (32209-B x 32213)	32734 from colored seeds
33277	Black Mexican , no B chromosomes ; seg albino; (Reid Palmer F-1313-2 Ÿ )	33277 from Pr su seeds
33320	gl1 lg1 a1 et1 x gl1 lg1 a1 sh2; (32314-4 x 32337)	33320 from a1 Dt seeds
33321	gl1 lg1 a1 et1 x gl1 lg1 a1 sh2; (32314 x 32337)	33321 from a1, segregating for Dt
33326	gl2 lg2 a1 x gl1 lg2 a1; (Ward 820 x 821)	33326 from a1 Dt1 seeds
33330	In3c a1 lg2 in KYS(rr) x In3c gl1 Lg1 A1 / N3 gl1 lg1 a1 probably has K3L (29596 x 29848-56 ¥)	33330 from A seeds
33337	gl6 lg2 a1 x In3a Gl1 A1 Lg1 / N Gl1 Lg1 A1 (K10/N10); (32975 x 33009-1 ¥)	33337 from colored seeds
33546	gl6 lg2 a1 x In3a Gl1 A1 KL a1 (K1o/k10 ?); (32414 x 32578-12 ¥)	33546 from a seeds
33551	(gl1) lg1 a1 et1 x gl1 lg1 a1 sh2; (32314 x 32337)	33551 from a dt seeds
33575	yg1 c1 sh1 wx1 x yg1 c1 sh1 wx1; (33027 ¥ x 33048)	33575 from c1 sh1 wx1 seeds
33734	probably In9 C1 Sh1 Wx1 / N9 c1 Sh1 Wx1 x yg2 c1 sh1 wx1; (33057-6 ¥ x 33184)	33734 from C1 Sh1 Wx1 seeds, some will be In9/N9 ; some will be Dp 9S df 9L/N9
33736	high loss KL9 / yg1 c1 sh1 wx1; (33040 ¥ x 33048)	33736 from c1 sh1 wx1
34350	gl1 lg1 a1 Sh2/sh2; 33551 sib	34350 from a1 sh2 dt1 y
34690	K10r; Wx1 / N10r; wx1 x K10 r1 wx1 high knob; (Saraiva 194-21 x 196-3)	stock with many knobs, 34690 from r Wx
35333	high loss KL 3 / K L 3; 33275 sib	35333 from Pr seed
35334	high loss KL 3 / K L 3; (33723-3 x -2)	35334 from Pr seed
35337	high loss KL 3 / K L 3 K10; 33447-6 Ÿ	35337 from Pr seed
35665	c1 sh1 wx1 x (Dp9s ?) C1 Sh1 Wx1 / c1 sh1 wx1; (34827 x 34834-1)	35665 from (bz1 ?), C1 Sh1 wx1 seed
35669	c1 sh1 wx1 x (Dp9s ?) C1 Sh1 Wx1 / c1 sh1 wx1; (34827 x 34834-1)	35669 from (bz1 ?), C1 Sh1 Wx1 seed
NOTE	NOTE: w2 / df w2 R1 gives etched seeds with colorless areas; w2 / df w2 r1 gives etched seeds with floury-like areas; (pertains to some of the entries from #35677 to 35774)	NOTE: w2 / df w2 R1 gives etched seeds with colorless areas; w2 / df w2 r1 gives etched seeds with floury-like areas
35677	Df K10(I) R1 df1 / N10 r1 Wx Sa2 x g1 r1 cr2; wx1; (35306 x 35303)	simple deficiency W2 gr2 in 10L from high loss with K10 R1 Wx Sa2; no male transmission; 35677 from R seed
35768	bz1 mut bz1 mut; mut mut; 34647 sib	35768 from bz stable seed
35770	Df K10 (C1) R1 / N10 R-nj o7 x R-nj o7; (35354 x 35362)	deficiency (C) from high loss with K10; no male transmission, low female transm, deficient for L W2 and Sr2; 35770 from R seeds
35771	Df K10 (F) R1 df / N10 R-nj o7 x R-nj o7; (35356-1 x 35362)	deficiency (F) lacks Wx and Sr2; reduced male transmission, 35771 from R o7 seeds
35772	Df K10 (H) R1 / N10 R-nj o7 x R-nj o7; (35358 x 35362)	deficiency (H) lacks Sr2 and W2; 35773 from R seeds
35773	Df K10 (I) R1 / N10 R-nj o7 x R-nj o7; (35360 x 35362)	deficiency (I) lacks Sr2 and W2, 35773 from R seeds
35774	Df K10 (K) R1 / N10 R-nj o7 x R-nj o7; (35361 x 35362)	deficiency (K) lacks Sr2 and W2, 25774 from R seeds
35776	R-nj o7; 34981 sib	35776 from R-nj o7 seeds
35830	R1 W2 sr2 / r1 w2 Sr2 ; 35826 Ÿ gr	35830 from R self seeds
35831	a1-mrh; sh1 wx1 ; 35342-13 Ÿ yg	35831 from sh wx seeds
35832	a1 dt sh2 Mrh / Mrh; (Dt/dt ?) x a1-mrh; sh1 wx1 mrh; (35540 x 35539 - 21 gr)	35832 from a1-mrh Sh1 Wx1 Mrh seeds
35833	a1 dt sh2 Mrh / Mrh; (Dt/dt ?) x a1-mrh; sh1 wx1 mrh; (35540 x 35539 -14 gr)	35833 from a1-mrh Sh1 Wx1 Mrh seeds
35834	a1-mrh; sh1 wx1 mrh (segregating for yg); 35539 - 14 Ÿ gr	35834 from sh wx seeds
35835	a1-mrh; Sh1 Wx1 Mrh / a1; sh1 wx1 mrh x a-mrh; sh1 wx1 mrh / a1; (35708 x 35709)	35835 from a-mrh; Sh1 Wx1
35837	Df Yg-2(33166) C1 sh1 Wx1 / yg c1 sh1 wx1 x yg2 c1 sh1 wx1; (34355-9 yg 1 B chromosome x 34348)	terminal 9S deficiency 33166 gives mosaic seeds when used as male and when B chromosomes are present, 35837 from C1 sh1 Wx1 seeds
35844	Yg2 / yg2 c1 xh1 wx1 x Df Yg-2 (33166) C1 sh1 Wx1 / KL9 yg2 c1 sh1 wx1 (35658 x 35655-4)	35844 from c1 sh1 wx1 seeds
35845	Yg2 / yg2 c1 xh1 wx1 x Df Yg-2 (33166) C1 sh1 Wx1 / KL9 yg2 c1 sh1 wx1 (35658 x 35655-4)	35845 from c1 sh1 Wx1 seeds
35860	bz2-m ac2 wx1 x bz2-m bz2-m Ac2 Ac2 Bz1 Bz1 mrh mrh A1 A1; (35347 x 35345-8)	35860 from exceptional bz2-m , lo-dot seeds, single Ac2 gives no (or lo) mutability thru male
35879	bz2-m ac2 wx1 x bz2-m ac2 wx1; (35422 x 35501)	35879 from bz2-m ac2 wx1 seeds
35880	l13/+; Mascia 75-1471-10 Ÿ	35880 from Y seeds; (6) (7) (9) (11) (20) Ÿ seg l13 when tested
35883	Df K10 (C) R 1- - - / K10 r1 + + + x gr sr2; (35524 x 35534)	Df (C) = simple Df K10 L including L13, W2 and Sr2, 35883 from R seeds, no male transm
35914	Tp9 Yg C1 Sh1 Wx1; Df3 / N9 yg c1 sh1 wx1; N3 x yg2 c1 sh1 wx1; (34537-6 ¥ x 34573)	¥ plants are heterozygous Tp9 and Df3, gives 2C:1C in test cross, K9 Df3 gametes (male and female) abort, Tp9 N3 reduced in male; 35914 from C1 Sh1 Wx1 seeds
35915	Tp9 Yg C1 Sh1 Wx1; Df3 / N9 yg c1 sh1 wx1; N3 x yg2 c1 sh1 wx1; (34537-6 ¥ x 34573) same as 35914, from c1 sh1 wx1 seeds	very little crossing over noted in 9S due to Tp9 heterozygositiy
35932	Df K10 (H) + R1 W2 - / N10 g1 r1 W2 sr2 x K10 K10 r1 wx1 y1; (34985 x 34948)	35932 from R1 wx seeds
35946	Bz2; T 8-9(6673) ac2 / bz2; N ac2 x lg2-m bz2-m ac2 ac2; (35447 x 35366)	35447 is heterozygous for tr-Ac2+116 on chromosome 3, very low dot number, 35946 from bz-mutable
35947	Bz2; T 8-9(6673) ac2 / bz2; N ac2 x lg2-m bz2-m ac2 ac2; (35447 x 35366)	35947 from bz-mutable wx1
35951	gl6 lg2 A1; 34682 Ÿ	ear all colored seed, 35951 from A1 seeds
35980	T 8-9(6673) wx; 35471 sib	35980 from Y wx seeds
35992	bzm-2; Ac2« tr Ac2 / bz2-m; ac2 ac2 x bz2-m bz2-m ac2 c2; (35398-2 x 35498-14)	tr-Ac2 limited to original Ac2 on chromosome 8 ;gives 1 high dot::1 no dot; a few low dot = crossovers; 35992 from high dot bz mutable seeds
35993	bz2-m; Ac2 Pr Acr / bz2-m; ac2 x bz2-m bz2-m ac2 c2; (35421 x 35498-1)	this is another tr Ac2 resembling 35993; limited to original Ac2 on chromosome 8 ;gives 1 high dot::1 no dot; a few low dot = crossovers; 35993 from bz2 high dot seeds
35994	bz2-m bz2-m ac2 ac2 probably Bz; wx1; 34569-2 Ÿ	ac2 tester, 35994 from bz2 stable, wx seeds
35996	bz2-m Ac2 tr Ac2 / ac2 ac2 x bz2-m ac2; 35378-2 x 35501	expect 3 mutable: 1 stable but tr Ac2 gives low dot number and stable class contains some tr Ac2 kernels (escapes); 35996 from bz mutable high dot, Wx1
35997	bz2-m Ac2 tr Ac2 / ac2 ac2 x bz2-m ac2; 35371-1 x 35501	independent tr Ac2, differs from 35996 above , 35997 from bz mutable high dot, Wx1
35998	bz2-m Ac2 tr Ac2 / ac2 ac2 x bz2; 35378-1x 35501	probably not the same as tr Acr as in 35996, independent of Ac2 on chromosome 8; 35998 from bz mutable, high dot Wx1
36000	bz2-m bz2-m; Bz1 Bz1 A1 A2 C1 R1; wx; 34621 sib	bz2 ear tester; 36000 from bz2 stable (ac2) - wx1
36001	bz2-m ac2 wx1 x bz2-m; Ac2 tr Ac / ac2; (35484 - 35491 Ÿ)	crossover frequent, 36001 from bz2-m stable seeds gave 18 ac2 ears and 12 ears segregate Ac2 when test crossed
NOTE	NEW CASES OF Ac TRANSPOSITION, # 36008 to #36120	NEW CASES OF Ac TRANSPOSITION, # 36008 to #36120
36008	bz2-m Ac2 tr Ac tr Ac / ac2 ac ac x bz2-m ac2 wx; (35866 x 35879)	probably 3 independent Ac's; ear had 248 mutable (high and low): 58 no dot; 36008 from bz2-m high dot Wx
36015	bz2-m ac x bz2-m ac2 wx; (35498-A x 35501)	ac2 tester, 36015 from bz stable seeds
36016	bz2-m ac2 Wx1 / wx1 x bz2-m ac2 wx; (35493-A x 35501)	ac2 tester, 36016 from bz stable wx seeds
36019	bz2-m wx1 ac2 A1 A2 C1 R1 Bz1; (34621 gl) sib	unknown gl, ac2 tester, 36019 from bz stable wx
36020	bz2-m wx1 ac2 A1 A2 C1 R1 ; (34621 A ) x sib	ac2 tester, 36020 from bz2-m ac2 wx
36024	bz2-m; Ac2 Ac2 x bz2-m ac2; (35346-1 x 35347)	single Ac2 = without linked duplication, gives low dot kernels with 2 doses of endosperm; 36024 from bz2-m with 54 dots
36033	bz2-m ac2 x bz2-m; Ac2 Ac2; (35347-a x 35345-8)	most kernels had no dots, selected 1 kernel with high dots, ac 36033; test cross of 36033 suggests 5 independent Ac's (new tr Ac's); ratio 282 high and low dots:11 stable
36035	bz2-m ac2 x bz2-m; Ac2 Ac2; (35347-a x 35345-8)	selected kernel with 150 dots as 36035; test cross indicates 2 separate Ac's
36045	bz2-m ac2 wx1 x bz2-m; Ac2 Ac2; (35347-b x 35345)	36045 from bz2-m with high dots, test cross suggests 3 independent Ac's segregating
36060	bz2-m ac2 wx1 x bz2-m; Ac2 Ac2; (35347-c x 35345)	36060 from 1 Bz kernel, possible reversion of bz2-m
36070	bz2-m ac2 wx1 x bz2-m; Ac2 Ac2; (35347-c x 35345) same as above in 36060	36070 from bz2-m with 10 dots, testcross suggests 2 independent Ac's segregating
36076	bz2-m ac2 wx1 x bz2-m; Ac2 Ac2; (35347-c x 35345) same as above in 36060	36076 from bz2-m with 23 dots, test cross suggests 2 independent Ac's segregating
36077	bz2-m ac2 wx1 x bz2-m; Ac2 Ac2; (35347-c x 35345) same as above in 36060	36077 from bz2-m with 32 dots, test cross suggests 2 independent Ac's segregating
36078	bz2-m ac2 wx1 x bz2-m; Ac2 Ac2; (35347-c x 35345) same as above in 36060	36078 from bz2-m with 100 dots, test cross suggests 2 linked Ac's; nco = high dot and no dot classes, co=low dot class
36080	bz2-m ac2 wx1 x bz2-m; Ac2 Ac2; (35347-c x 35345) same as above in 36060	36080 from bz2-m, with 200 dots, test cross suggests 3 independent Ac's segregating
36082	bz2-m ac2 x bz2-m; Ac2 /Ac2; (35347-d x 35345-8 )	36082 from Bz kernel, possible reversion
36083	bz2-m ac2 x bz2-m; Ac2 /Ac2; (35347-d x 35345-8 ) same as above in 36082	36083 from bz2-m, test cross suggests 2 independent Ac's segregating
36099	bz2-m ac2 wx2 x bz2-m; Ac2/Ac2; Wx1/Wx1; (35347-e x 35345-8)	36009 from bz2-m with 150 dots, test cross suggests 3 independent Ac's
36102	bz2-m ac2 wx2 x bz2-m; Ac2/Ac2; (35347-b x 35345-4)	36102 from 1 Bz possible revertant
36120	bz2-m ac2 wx2 x bz2-m; Ac2/Ac2; Wx1/Wx1; (35347-g x 35345-8)	36120 from bz2-m with 60-70 dots, test cross suggests 3 linked Ac's
36127	bz2-m; ac2 ms8 x bz2-m; ac2 Ms / ac2 ms2; (35738-1 x 35501)	36127 from bz2-m stable
36132	bz2-m; Ac2 «Ac2; Wx1 / ac2 ; wx1 x bz2 ac2 wx1; (35491-4 x 35501)	36132 from bz2-m mutable wx closely linked Ac's
36136	bz2-m bz2-m Ac2/Ac2; Wx1/wx1; (34611-22) Ÿ	36136 from bz mutable wx1 seed single Ac's, no tr Ac's
36137	I Ds Wx1; A1 R1 Y/Y; (34619D-19) x sib	36137 from Y seed
36153	bz2-m; Ac2 - Ac - Ac ? /ac x bz2-m ac2 wx1; (35876-1 x 35879)	36153 from mutable , very high dot #, test crosses suggest 3 independent Ac's
36154	bz2-m; Ac2 - Ac - Ac ? /ac x bz2-m ac2 wx1; (35876-1 x 35879) same as 36153 above	36154 from bz mutable (many dots) test crosses suggest 3 independent
36155	bz2-m; Ac2 - Ac - Ac ? /ac x bz2-m ac2 wx1; (35876-1 x 35879) same as 36153 above	36155 from bz mutable, low dot, test cross suggests 2 linked Ac's
36156	bz2-m; Ac2 - Ac - Ac ? /ac x bz2-m ac2 wx1; (35876-1 x 35879) same as 36153 above	3156 from bz stable stocks, 39 test crossed ears, all stable: 1 test crossed ear was heterozygous for simple Ac2
36158	bz2-m ; (Ac2 Ac / ac ac) ? x bz2-m ac2; (35868-1 x 35879-3)	36158 from bz mutable high dot , test crosses gave 1 high dot: 2 low dot:1 no dot, this suggests 2 indedpendent Ac's
36159	a1-mrh; Dt; Sh1 Wx1 Mrh / a1 sh2; dt; sh1 wx1 mrh x a1-mrh; sh1 wx1 mrh ; (35833-1 x 35831-4)	36159 from a1-mrh; Sh1 Wx1 Mrh (high dot numbers), Mrh + a1-mrh gives many more dots then a1 + Dt
36160	a1-mrh; Dt; Sh1 Wx1 Mrh / a1 sh2; dt; sh1 wx1 mrh x a1-mrh; sh1 wx1 mrh ; (35833-1 x 35831-4) same as 36159 above	36160 from a-mrh; sh1 wx1 mrh seeds
36160A	bz2-m ac2 wx1 y1 unknown gl x In3a Lg2 A1 gl6 / N3 (Gl) lg2 a1 ; may carry K10 and K3 (33419 x 33429)	36160A from Pr seeds
36170	a1-m-Neuffer; dt; mrh / a1-mrh; dt; mrh x a1s / a1s ; Dt/Dt seg sh2; (33103 x 33111	36170 from a-m Dt seeds with many dots due to Neuffer a-m allele
36180	high knob stock Wx/wx; (34676 - 5) x sib	36180 from Wx1 y1 seeds, many knobs present, probably 9S knobless, all others at least one knob, some heterozygous ?, chrom 1 and chrom 3 have one knob in each arm
36182	a1 sh2 / + + x bz1-mut / Bz1; (Dt/dt); (35681 x A)	all seeds were without dots, hence no Mut; 36182 from bz1 seeds, (some possible Bz overlaps ?)
36186	a1 sh2 dt; (33105) Ÿ	36186 from a1 sh2 dt
36186A	gl6 lg2 a1 sh2; Dt/dt; (33341) sib	36186A from a1 sh2 (Dt ?) seeds
36187	bz1-mut ; Mut / bz1-mut; mut x T 2-9b wx1	36187 from Bz1 Wx1 seeds
36188	bz1 mut / bz1 mut x mut; wx / mut; wx; (35363-101) sib	36188 from bz stable wx1
36448	Df K10 (F) R - - / N10 R-nj W sr2; (36220 Ÿ sr2)	ear seg R self; R-nj and R-r spotted ( latter are homozygous Df for W2), 36448 from R seeds (self)
36450	Df K10 (C) R - - - / K10 r1 L13 W2 Sr2; (35524 x 35534	more frequent cross over in Df K10/ K10 more than in Df K10/N10; 36450 from R1 seeds
36451	Df K10 (K) R1 W2 - K10 r1 W2 Sr2 x g r1 sr2; (35314 x 35303	36451 from r1 wx1 seeds
NOTE	Df 33166 : missing tip of 9S and Yg, a small bit of heterochromatin caps 9S. 1 B spores with Df give "loss" in males but no loss in females. Exhibited mainly as C-c mosaics, and less frequently as whole loss (c). Df 33166 gives rise to Dp9 chromosomes which are duplicate for most of 9S including C and Wx but deficient for Yg. These may arise on either male or female side and supposedly come from fusion (not replication) of heterochromatin tip, bridge formation at anaphase, breakage of bridge near one centromere and healing of broken end (pertains to entry # 36452, also find Df 33166 in entries # 35844, 35845, 35837, 36674)
36452	yg2 c1 sh1 Wx1 / + c1 sh1 wx1 x Df Yg(33166) C1 sh1 Wx1 / yg c1 sh1 wx1	plants with B chromosomes + Df Yg(33166) give C-c mosaics where used as male ; 36452 from C mottled sh1 Wx1 seeds
36456	card missing	card missing
36456A	a-mrh, Mrh / a1 mrh (Dt/dt) ; (31815) Ÿ	36456A-1 seg bz1-mut and Mut (appeared to be a new mutation of Bz1‹ð bz1-mut, (but not sure) 36456A from heavily dotted seeds, (due to a-mrh + Mrh)
36457	bz1-mut bz1-mut; mut / mut; (35363 - 101) sib	36457 from bz stable wx
36458	a1 sh2 mrh dt; (36186) sib	36458 from a1 sh2 dt
36460	(yg2) C1 sh1 bz1 wx1 (may segregate KL9); (36161) sib	36460 from sh1 bz1 wx1 seeds
36508	bz2s(Scwartz allele), probably no Ac1 x bz2-m; Ac2 wx1 / bz-m; Ac2 wx1 (36136A-9 x 36136-15)	36508 from bz stable seeds (Ac2 inactive in 1 dose)
36509	bz2-an; Ac2 / bz2-an; Ac2; (35315) Ÿ	deficiency for Bz2, 36509 from bz stable seeds
36511	bz2-m; Ac2«Ac2; Wx1 / ac; wx1 x bz2 ac2 wx1; (35491-4 x 35501)	strong Ac2, probably double Ac2 through transposition to nearby site on chrom 8; 36511 from bz2 mutable, wx
36513	I Ds Wx1, ac; (34619D-15) x sib	traces to Coop 66-864-2 / 864-6; some plants I/I or I/C; 36513 from y seed
36530	high knob stock, K10 r / K10 r; (34675 sib x 19 t)	36530 from y wx1
36531	high knob stock; (34675-5 ) x sib	36530 from y wx1
36535	high loss KL3; 35333 sib	36535 from colored seed
36547	bz2-m; Ms8 ac ;Wx1 / ms8 ac; wx1 x bz2 ac2 wx1; Ms8/Ms8 ; (36127 - 9 x 36000-6)	ac2 tester 36547 from bz2-m ac2 wx1
36652	Dp9 MMR C1 Wx1 / wd C1 wx1 + Wd ring; (34783-1) Ÿ	SEE NOTE ABOVE ENTRY # 38212. 36652 from mosaic (I-C); wx- plants striped gr-wh
36656	Dp9 MMR C1 Wx1 / wd C1 wx1 + Wd ring; (34550) Ÿ	36656 from I-C mosaic sh1 Wx1
36657	Rg (C) wx1 / wd1 C1 sh1 bz1 wx1 x c1 Wx1; (32358B x 32366)	traces to Faberge 358 sib (R) C1 Sh1 Bz1 wx1, homozygous supposed to be Mc Clintock rearranged 9, 36657 from I-C mosaic
36658	Rg (C) wx1 / wd C1 sh1 bz1 wx1; yy x c1 Wx1; (32358-102 x 32366)	36658 from self colored
36659	Rg (C) wx / wd1 C1 sh1 bz1 wx1; yy x c1 Wx1; (32358-101 x 32366)	36659 from self colored
36662	high knob derivative; K10 r1 / K 10 r1; (34949) sib	36662 from r1 wx1
36663	high knob derivative; K10 r1 / K10 r1 wx1; (34691 sib 4 x 10)	36663 from r1 wx1 y1
36664	9 c1 sh1 wx1 / 9 DP C1 Sh1 wx1; (Carlson 4101 x 4120 ear 1)	McClintock Dp9, duplication of most of 9S; 36664 from C1 wx1 seed
36666	B37 sh1 x WF9 sh1	36666 from Y1 sh1
36671	high loss KL9 C1 sh1; (35335) Ÿ	36771 from C1 sh1 seed
36672	high loss a1 KL3 Dt/Dt; (segregating for lg2 and na ?); (33552) sib	36672 from a1 Dt;
36673	a-mrh / a OR a-mrh / a-mrh; +/yg2; C/? ; sh1 wx1 mrh; (35539 - 17 gr x 9-gr)	36673 from a1 C? sh1 wx1 mrh
36674	Yg/ yg2; c1 sh1 wx1 x Df C1 sh1 wx1 / yg2 c1 sh1 wx1; (33987 x 33959-13 yg2)	for vigorous yg2; Df = Df 33166; 36674 from c1 sh1 wx1
36678	gl Lg A1 In3a / Gl lg a1 N3 x gl6 lg2 a1 et1 / gl6 lg2 a1 sh2; (33429-4 x 33320)	In3a; 36678 from A probably Et
36680	gl Lg A1 In3a / Gl ? lg a1 N3 x gl6 lg a1 / d1 gl lg a1; (33429-46 x 33420-19)	36680 from A probably Et
36689	Df K10 (C) R1 - - - / N10 g1 r1 W2 L13 sr2 x Df K10 (K) + r1 W2 - / N10 g r1 W2 sr2 (36450 x 36451 good sr2)	36889 from R1
36692	Df K10 (C) R1 - - - / N10 g1 r1 W2 L13 sr2 x Df K10 (K) + r1 W2 - / N10 g r1 W2 sr2 (36450 x 36451 good sr2) same as 36689 above	36692 from R1 pr (small seed)
36693	Df K10 (C) R1 - - - / N10 g1 r1 W2 L13 sr2 x Df K10 (K) + r1 W2 - / N10 g r1 W2 sr2 (36450 x 36451 good sr2) same as 36689 above	36693 from r (plants seg G and g1)
36695	R1 + / r1 w2; (35830 ) Ÿ	ear segregates for R1, spotted (=R1 w2) and r1; green plants should be r1 + / r1w; 236695 from r1 seed,
36697	g r1 W2 sr2 x R1 W2 sr2 / R1 w2 Sr2; (35900 g x 35899-6)	36697 from colored seed
36699	Df K10 (F) g R1 - - / K10 G r1 W2 Sr2 x g r1 sr2; (35526 x 35534)	36699 from R1 seed
36700	Wx1 / wx1; bz2-m ac2 x Ms8/ms8; (36127) sib	36700 from bz2 Wx1 ac2 seed
36701	Wx1 / wx1; bz2-m ac2 x Ms8/ms8; (36127) sib same as 36700 above	36701 from bz2 wx1 ac2 seed
36702	pro 1 (-1121) + + + / + v16 ms8 j; (Neuffer 30: 990-3) Ÿ	36702 from Y seed
36704	Ac Ac2 / ac2; bz2-m wx1 x wxm-9 ac2 Bz2; (36132-1 x D. Shwartz 7445-1)	wxm-9 = Wx1 Ac1; 36704 from Bz2 wxm-9 seed; Wx1 and wx1 sectors on lavender background
36706	Ac Ac2 / ac2; bz2-m wx1 x wxm-9 ac2 Bz2; (36132-1 x D. Shwartz 7445-1) same as 36704 above	36706 from Bz2 wxm-9 ; Wx1 and wx1 (sectors are few & late)
36711	bz2-m ac2 Wx1 / wx1 x bz2-m ac2 wx1; (36127-9 x 3600-6)	tester; 36711 from bz2 ac2 wx1 y
36719	C1 wxm-9 Bz2 Ac2« Ac2 x C1 wx1 bz2 ac2	36719 from bz1 mutable (+ dots); lavender very low Wx sectors
36728	Bz2 ac1 Ac2 cm-1 Sh1 wx1 / bz2-m ac2 C1 Sh1 wx1	36728 c1 stable wx1, some ears segregate bz2-m and Ac2; other ears segregate bz2-m ac2
36730	Cm-1 wx Ac1 Ac2 Bz2 / C1 wx1 ac1 ac2 bz2-m; (36502-1) Ÿ	ear segregages { Pr Bz2 pr } { bz2-m (mutable and stable) and c1 (mutable and stable) }; 36730 from c1 stable wx1 (some plants segregate bz2 and Ac2)
36735	bz2-m; Ac2«Ac2; Wx1 / ac2; wx1 x bz2-m ac2 wx1; (35491-12 x 35501)	36735 from bz2-m; many dots wx1
36737	wx m-1 C1 / wx m-1 c1; Etched 396 sib	36737-3 and -5 were crossed with c tester; both = C1/c1; 36737 from wxm-1 ac Y
36749	Bz2 Ac2«Ac2 wx1 / bz2-m ac2 wxm-9 ; (36504-2) Ÿ	36749-6 Ÿ segregates for Bz:bz2 (lo mutable and stable); Ac1 coarse mutability of bz2-m; Ac2 finer dot pattern; 36749 from Bz wx kernels
36750	Ac2 Ac2 Ac2 ? / ac1 ; bz2-m x bz2-m ac2; (36120 x 36016-6)	36750 from bz2-m , very high dots, (nearly self colored)
36753	bz2-m; Ac2 trAc trAC / ac ac ac x bz2-m ac2; ms8 / +; (36520 x 36541)	ear had 7 bz:1 bz2 stable ratio; some ears gave 1:1 mutable:stable; 36753-7 gave 7:1 (possible ratio); 36753 from bz2 high dot seed
36757	I Sh1 Bz Ds Wx1; Ac1 / C1 sh1 bz wx; ac x bz1-mut wx1; mut; (36492 x 36457)	36757 from I wx1
36758	I Sh1 Bz Ds Wx1; Ac1 / C1 sh1 bz wx; ac x bz1-mut wx1; mut; (36491 x 36457)	36758 from C1 Bz, some Wx1-wx1 mosaics
36759	I Sh1 Bz Ds Wx1; Ac1 / C1 sh1 bz wx; ac x bz1-mut wx1; mut; (36491 x 36457) same as 36758 above	36759 from I wx1 seeds
36760	I Sh1 Bz Ds Wx1; Ac1 / C1 sh1 bz wx; ac x bz1-mut wx1; mut; (36491 x 36457) same as 36758 above	36760 from bz wx1 seeds
36761	Ms8 ac2; Wx1 / ms8 ac2; wx1; bz2-m; (36127) sib	36761 from wx1 bz2-m ac2 seeds
36762	ms8 ac2 / ms8 ac2 ; bz2-m x bz2-m; + ac2 / ms8 ac2; (36545 x 36541 ?)	36762 from bz2-m ac2 wx seeds
36769	bz2-m ms8 ac2 x bz2-m; _ ac2/ ms8 ac2; (36309 ms x 36127-4 t)	36769 from bz2-m ac2
36828	C1 Sh1 bz1-mut Wx1 / c1 sh1 Bz wx1 x Ws3 Lg1 Gl2 Mut / ws3 lg1 gl2 mut (36538 ) Ÿ	36828 from bz1-mut, unstable
36828A	C1 Sh1 bz1-mut Wx1 / c1 sh1 Bz wx1 x Ws3 Lg1 Gl2 Mut / ws3 lg1 gl2 mut (36538 ) Ÿ same as 36828 above	36828A from bz1-mut stable
36829	C1 Sh1 bz1-mut Wx1 / c1 sh1 Bz wx1 x Ws3 Lg1 Gl2 Mut / ws3 lg1 gl2 mut (36538 ) Ÿ same as 36828 above	36829 from C-c mosaic
36836	Bz2 gl6 ac lg2 A1 Wx1 / bz2-m + Ac + Wx1; (36536 -4) Ÿ	Ac=tr Ac116 derived from Ac2 on chromosome 8, very low dot numb; 36836 from bz2-m, no dots; many probably escapes, (ie they have Ac)
36841	Bz2; gl6 ac lg2 A1 Wx / bz2-m; + Ac + wx1; (36536-3 ) Ÿ	Ac=tr Ac116 , 36841 from bz2 many dots
36842	Bz2; gl6 ac lg2 A1 Wx / bz2-m; + Ac + wx1; (36536-3 ) Ÿ same as 36841 above	36842 from bz2 several dots
36843	Bz2; gl6 ac lg2 A1 Wx / bz2-m; + Ac + wx1; (36536-2 ) Ÿ	36843 from bz2 (1 to several dots), segregates for wx1
36844	Bz2; gl6 ac lg2 A1 Wx / bz2-m; + Ac + wx1; (36536-2 ) Ÿ same as 36844 above	36844 from bz2 high dots, segregates for wx1
NOTE	NOTE : FOLLOWING ENTRIES GH 1983 from # 36852 to entry # 36932	NOTE: FOLLOWING ENTRIES GH 1983, from entry #36852 to # 36932
36852	Du g R1 N10 / du r1 N10 ; wx1 x teosinte K10-II/N10; (36603 g x 36831-1 teosinte)	teosinte from Kato accession = BA t-74, G-10, K-67-2; 36852 from colorless Wx1
36854	R1 + (sr2) / r1 w2 (+) ; (35830) Ÿ	ear segregates R1 self: R1 spotted (= w2) : r1;; 36854 from R1 self colored
36868	r1 + sr2 / r1 w2 + x Df K10(F) R1 - - / N10 r1 + + ; (36586 x 36583-24)	ear segregates ( R1 self and mottled : R1 spotted : r1 ) 36868 from R1 self and mottled
36875	Df K10 (C) G R - - / N10 g r1 W2 sr2 x Df K10(K) G r1 W2 - / N10 g r1 W2 sr2 (36450 sr2 x 36451 sr2)	ear segregates R1 (small and large) : r1 (small and large); segregates for wx1; 36875 from R1 large, Wx1
36878	R1 + / r1 w2; (35830) Ÿ	ear segregates R1 self : R1 spotted = W2: r1, 36878 from r1 seed (for r1 + / r1 w2 tester)
36881	Df K10(H) R1 W2 - / N10 g r1 W2 sr2 x K10 r1 W2 Sr2; (34985 x 34948)	36881 from R1 wx1 seeds
36885	Yg2 C1 Sh1 bz1-mut Wx1 / yg2 C1 sh1 bz1-mut wx1; Mut/mut x yg2 sh1 bz1-s wx1; mut; (34469-24 ?c x 34479-11)	bz1-s = standard bz1, 36885 from C1 Sh1 bz1-mut Wx1 + Mut
36890	Yg2 C1 Sh1 bz1-mut Wx1 / yg2 C1 sh1 bz1-mut wx1; Mut/mut x yg2 sh1 bz1-s wx1; mut; (34469-24 ?c x 34479-11) same as 36885 above	36890 from C1 sh1 bz1 wx1 (stable bz)
36898	C1 sh1 bz1 wx1 x yg2 C1 sh1 bz1 wx1 KL9S; (34652 x 34653)	36898 from C1 sh1 bz1 wx1
36899	C1 bz1-mut; Wx1; Mut / wx1; Mut x c1 sh1 wx1; ws3 lg1 gl2; 36190 x 36192	36899 from C1 Bz Wx1
36900	c1 sh wx1 ; ws3 lg1 gl2; (36192) sib	36900 from c1 xh wx1
36902	bz1-mut wx1; ws3 lg1 mut gl2; (36828A-8 x 1)	36902 from bz1-mut ;wx (no dots)
36911	bzs-m ac2 wx1 x Bz2 Ac2 «Ac2 wx m-9 / bz2-m ac2 wx1; (36711 x 36704-61)	36911 from bz2 coarse wx m-9
36913	bzs-m ac2 wx1 x Bz2 Ac2 «Ac2 wx m-9 / bz2-m ac2 wx1; (36711 x 36704-61) same as 36911 above	36913 from bz2-m coarse wx m-9
36914	bz2-m ac2 wx1 ; (36567 x 36567-15)	36914 from bz2-m ac2 wx1 y
36915	bz2-m ac2 wx1; + / ms8; (36710-11) Ÿ	ac2 tester, 36915 from bz2 ac2 wx1
36921	cm-1 bz2 Ac2 / ac1 wx1 x C1 bz2 ac2 wx; (36730 x 36711)	36921 from bz2-m low dots, wx1
36927	bz2-m; gl6 ac1 lg2 / + Ac + x bz2-m ac2, gl6 lg2; (36840 x 36836-5)	Ac=tr Ac116 derived from Ac2; 36927 from bz2 stable
36928	bz2-m; gl6 ac lg2 A1; (36836-7 x -2)	36928 from bz2 ac2 seed
NOTE	NOTE: some confusion about the pedigrees for 36929; position of Ds in the I Bz Wx stocks tracing back to Coop 66-864-2 / 864-6 Ÿ which was I/C	NOTE: some confusion about the pedigrees for 36929; position of Ds in the I Bz Wx stocks tracing back to Coop 66-864-2 / 864-6 Ÿ which was I/C
36929	bz2-m Ac2 Ac2; wx1; C s / ac; cw x I Wx1 Ds ac; (36511 x 36513 -1)	I / strong C (where Cs = strong C and Cw= weak C); 36929 from pale C1 Wx1, many Bz wx1 sectors
36930	bz2-m Ac2 Ac2; wx1; C s / ac; cw x I Wx1 Ds ac; (36511 x 36513 -1) same as 36929 above	36930 from pale C1 Wx1, no sectors or few
36931	bz2-m Ac2 Ac2; wx1; C s / ac; cw x I Wx1 Ds ac; (36511 x 36513 -1) same as 36929 above	36931 from I Wx1, many C wx spots
36932	bz2-m Ac2 Ac2; wx1; C s / ac; cw x I Wx1 Ds ac; (36511 x 36513 -1) same as 36929 above	36932 fro I Wx1, no or few C wx spots
36943	bz2-m wx1; ms / ms x +/ms; ac2; (36701) sib	ac tester (some seeds have 1 dot), 36943 from bz2-m ac2 wx1
36944	bz2-m wx1; ms / ms x +/ms; ac2; (36701) sib same as 36943 above	36944 from bz2-m ac2 wx1 with 1 dot
36946	bz2-m; Ac2« Ac2 Ms / ac Ms x bz2-m ac2; ms8 / +; (36804 -3 x 36769)	exceptional seeds have low dot number, 36946 from bz2-m with 8 dots = single Ac2
36956	bz2-m; Ac2« Ac2 Ms / ac Ms x bz2-m ac2; ms8 / +; (36804 -5 x 36769)	ear has 1 many dot : 1 no dot; a few exceptions with low dots, 36956 from bz2-m with 23 dots = single Ac2
36957	bz2-m; Ac2« Ac2 Ms / ac Ms x bz2-m ac2; ms8 / +; (36804 -5 x 36769) same as 36956 above	36957 from bz2-m with 38 dots = single Ac2
36969	bz2-m ac2 wx; (36701 )sib	ac2 tester, 36969 from bz2-m ac2 wx1 (stable bz)
36975	bz2-m ; Ac2 «Ac2 Ms / ac Ms x bz2-m ac2 ms8 / +; (36804 -9 x 36769-2)	ear 1:1 (high dots:no dots), a few low dots; 36975 from bz2-m plus 30 dots
36987	bz2-m ; Ac2 «Ac2 Ms / ac Ms x bz2-m ac2 ms8 / +; (36481-2 x 36540-9)	ear 1:1 for high dot; no dot; a few low dot; 36987 from bz2-m low dots
36990	bz2-m; Ac2 «Ac2 Ms / ac ms x bz2-m ac2 ms8 / +; (36481-3 x 36540-9)	36990 from bz2-m, no dots
36991	bz2-m; Ac2 «Ac2 Ms / ac ms x bz2-m ac2 ms8 / +; (36481-5 x 36540-9)	36991 from bz2-m low dots
36994	bz2-m; Ac2 «Ac2 Ms / ac ms x bz2-m ac2 ms8 / +; (36481-5 x 36540-9) same as 36991 above	36994 from bz2-m stable (no dots)
36995	bz2-m ac2 wx1; (36701) sib	36701 from bz2-m, no dots
37000	bz2-m ; Ac2 «Ac2 Ms / ac2 Ms x bz2-m ac2 ms8 / +; (36481-7 x 36540-9)	37000 from bz2-m, low dots
37012	bz2-m ; Ac2 «Ac2 Ms / ac2 ms x bz2-m ac2 ms8 / +; (36481-10 x 36540-9)	37012 from bz2-m about 20 dots
37019	bz2-m ; Ac2 «Ac2 Ms / ac Ms x bz2-m ac2 ms8 / +; (36481-12 x 36540-9)	37019 from bz2-m with very high dots
37021	ac2 ms / ac2 ms x ac + / ac ? ; all bz2-m; (36701) sib	tester, 37021 from bz2-m, no dots
37061	(yg2) C1 sh1 bz wx1 x KL9S yg2 C1 sh1 bz1 wx1; (34652 x 34653)	37061 from C1 sh1 bz wx1
37063	C1 Sh1 bz1-mut Wx1 / c1 sh1 + wx1 ; + + Mut + / ws3 lg1 mut gl2 x yg2 C1 sh1 bz1s wx1 ; (36899-G x 36898)	37063 from Sh1 Bz Wx1
37073	Sh1 bz1 mut Wx1 / Sh1 bz1 mut wx1 x Mut/Mut; (34640 -A-25 ) sib	37073 from bz1-mut; Mut Wx
37075	sh1 bz1s x Mut / Mut ; (34644-1) Ÿ green	tester for bz1-mut; 37075 from C1 sh1 bz1s Wx1 (no dots)
37077	C1 C1 bz1-mut bz1-mut wx1 wx1; mut /mut; (35363) sib	tester for Mut; 37077 from C1 bz1-mut wx1 mut
37078	C1 C1 bz1-mut bz1-mut wx1 wx1; mut /mut; (35363) sib same as 37077 above	37078 from C1 bz1-mut wx1 mut
37079	Sh1 bz1 mut / sh1 bz1s x Mut / mut; (34563 - 2)Ÿ	37079 from Sh1 bz1-mut Mut
37083	sh1 bz1s; Wx1; Mut / wx1; mut x yg2 C1 sh1 bz1s wx1; (34656 x 34653)	37083 from sh1 bz1s wx1
37086	I wx1 / C1 (or c1 ?) wx m-1 x C1 bz1m-2 wx Ac1; (36935 x 36936)	37086 from I Wx1-wx1
37089	C1 wx1 / cm-1 wx1; bz2-m; Ac2 / ac2; ac1; (36921 -1) Ÿ	37089 from cm-1 mutable wx1
37091	C1 wx1 / cm-1 wx1; bz2-m; Ac2 / ac2; ac1; (36921 -1) Ÿ same as 37089 above	37091 from cm-1 stable wx1
37095	C1 wx1 / cm-1 wx1; bz2-m; Ac2/ac2; ac1; (36921-3) Ÿ	37091 from cm-1 stable wx1
37096	Ac2 / Ac2; bz2-m wx1; (34611-8) Ÿ	37096 from bz2-m Ac2 wx1
37098	gl6 lg2 acr x gl6 lg2 ac2; (36928 x 36927-6)	tester; 37098 from bz2-m, no dots
37123	r1 + sr2 / r1 w2 + x Df K10 (F) R1 - - / N10 r1 W2 Sr2; (36586 green x 36583 -8)	ear: 23 R self & mottled: 11R1 spotted: 154 r1; 37123 from R1 self or mottled
37131	Df K10(F) R - - / K10 r1 W2 Sr2 x Df K10(F) R- - / K10 r1 W2 Sr2; (36882 -2 x 36883-6)	37131 from R1 seeds
37132	Df K10(H) R W2 - / K10 r1 W2 Sr2 x Df K10(F) R- - / K10 r1 W2 Sr2; (36882 -2 x 36883-6)	37132 from R self
37134	r1 W2 / r1 +; (34980-6) Ÿ	traces to Coop 76-605-7 Ÿ+/w2; 37134 from colorless (=r1 ?)
37135	R-nj + / r1 w2; (35680-2) Ÿ	37135 from r1 Y seeds, green plants = r1 + / r1 w2
37139	Df K10(F) R1 - - / N10 r1 W2 Sr2 x Df K10 (H) R1 W2 - / K10 r1 W2 Sr2 (36884 x 36882-1)	37139 from R1 self
37142	Df K10(C) R1 - - / N10 r1 W2 sr2 x r1 + / r1 w2; (34957-14 x 34980-10)	37142 from R self seeds
37143	Df K10(K) R1 W2 - / N10 g r1 W2 sr2 x r1 + / r1 w2 (35016 X 34980 -6)	37143 from R1 seeds
37145	Df K10 (C) R - - - / K10 r1 L13 W2 Sr2 x g r1 sr2; (35524-A x 35534)	37145 from R1 seeds
37147	Df K10 (C) R1 - - - / K10 r1 L13 W2 Sr2 x g r1 sr2; (35524-C x 35534)	This family lost Df (C) by later tests, 37147 from R seed
37150	bz2-m ac2 ms8 x Dp9 MMR C1 sh1 Wx1 / wd C1 wx1; + Wd ring bearing I (36700-A x 36656-7)	37150 from I-C mosaic
	BEGINNING OF SECOND GROUP OF LABELS
37152	bz2-m ac2 ms8 X Dp9 (MMR) C1 sh1 Wx1 / (wd1 C1 wx1); + ring 9 I Wd (36700 ms A X 36656-7)	Dp 9 is duplication of most of 9S, lacks Yg, tip of select darker kernels have higher C dosage; 37152 from Bz-bz sectored kernels
37154	bz2-m ac2 X Dp9 (MMR) C1 sh1 Wx1 / (wd C1 wx1); + ring 9 I Wd (36700 G X 36656-6)	37154 from I-C mosaic kernels
37164	bz2-m ac2 X Dp9 (MMR) C1 sh1 Wx1 / (wd C1 wx1); + ring 9 (36700 L X 36656-8)	37164 from I-C mosaic kernels
37199	R9 C1 wx1 / c1 Wx1 (36659 - 22) @	R9 = McC rearranged 9; 37199 from C1 Wx1 kernels
37201	R9 C1 wx1 / c1 Wx1 (36658-18) @	37201 from C1 wx1 kernels
37204	bz1 mut bz1 mut; mut mut wx1 wx1 (35363-101 sib)	37204 from bz stable
37221	bz2 ac2; wx /+ X bz-m; Ac2 / ac;wx / +	new revertant Bz ?, 37221 from Bz seeds (Wx and wx)
37250	Bz2/bz2-m; Ac2«Ac2 / ac2; wx m-1 / wx1 (36941-1) @	wx m-1 responds to high doses of Ac2; 37250 from colorless wx1 with infrequent Wx1 spots
37327	bz2-m; Ac2«Ac2 + / ac ms8 X bz2-m; ac ms / ac +; (v/+ ?) (36804-4 X 36769)	ear segregates 1:1 (high dot : no dot) with rare low dot kernels; 37327 from bz high dot kernels
37330	bz2-m; Ac2«Ac2 + / ac ms X bz2-m; ac ms / ac + (36804-7 X 36769)	37330 from bz2 many dots
37346	bz1 mut wx; Ws3 Lg1 Mut Gl2 / ws3 lg1 mut gl2 X bz1 mut wx; ws3 lg1 mut gl2 (36907-1 X 36902)	37346 from bz mutable seeds
37350	bz1 mut wx; Ws3 Lg1 Mut Gl2 / ws3 lg1 mut gl2 X bz1 mut wx; ws3 lg1 mut gl2 (36907 X 36902) same ped as 37346 above	37350 from bz-mutable seeds
37367	bz1 mut wx; Ws3 Lg1 Mut Gl2 / ws3 lg1 mut gl2 X bz1 mut wx; ws3 lg1 mut gl2 (36907 X 36902) same ped as 37346 above	ears in 37367 : 4 seg bz mutable and 2 not segregating mutable; 37367 from bz-mutable
37370	bz1 mut wx; Ws3 Lg1 Mut Gl2 / ws3 lg1 mut gl2 X bz1 mut wx; ws3 lg1 mut gl2 (36907 X 36902) same ped as 37346 above	ears in 37370 = 16; all segregated bz mutable; 37370 from bz mutable, mottled
37377	bz1 mut wx; Ws3 Lg1 Mut Gl2 / ws3 lg1 mut gl2 X bz1 mut wx; ws3 lg1 mut gl2 (36907 X 36902) same ped as 37346 above	saved 1 ws lg gl plant (37377); ear did not seg Mut; 37377 from bz-mutable wx seeds
37383	bz1 mut wx; Ws3 Lg1 Mut Gl2 / ws3 lg1 mut gl2 X bz1 mut wx; ws3 lg1 mut gl2 (36907 X 36902) same ped as 37346 above	saved 1 ws lg gl plant (37383); ear did not segregate Mut; 37383 from bz mutable
37401	bz1 mut; ws3 lg1 mut gl2 X bz1 mut; ws3 lg1 mut gl2 (36902 X 36901)	tester; 37401 from C1 bz1-mut wx1 (stable bz)
37402	bz1 mut bz1 mut; mut mut wx1 wx1 (35363 sib)	tester; 37402 from bz-stable
37411A	Gl6 tr Ac2 Lg2 / gl6 ac lg2; bz2-m X gl6 ac2 lg2: bz-m (36926 X 36927)	transposed Ac2 on chromosome 3; 37411A from bz2 low dots
	1984 GREENHOUSE ENTRIES # 37456 TO #37601
37456	K10-II / N10 X prob Df K10 (C) R1 / K10-II r (37452-17 X 37441)	37456-6 and -12; were homozygous K10-II, 37456-7 was heterozygous K10-II; PMC check B's are seg; 37456 from colorless seeds
37466	K10-II / N10 X prob Df K10 (C) R1 / K10-II r (37452-26 X 37441) same ped as 37456 above	37466-1 was homozygous K10-II, 37466-5 was heterozygous for K10-II; PMC check no B's; 37466 from colorless seed
37480	g R1 w2 Sr2 / g r1 + sr2 X K10-II r1 / N10 R1 (37289 g Sr2 X 37452-12)	37480 plants 3, 4, 18, and 22 were N10 N10 by PMC; 37480 from R seed (self col)
37481	A1 A2 C1 R1 X K10-II X K10-II r 1 / N10 (37214 X 37452 - 26)	plants 13, 15, and 28 show high r in test cross, pref seg; 37481 from R1 seed
37482	K10-I r1 / N10 r1 X K10-II r1 / N10 R1 (37438 X 37452 - 25)	plant 13 K10-I/N10; plant 10 probably same; 37482 from R1 mottled
37485	Df K10 (F) R - - / K10-I r W Sr X Df K10 (F) R1 - - / K10-I r1 W Sr	most are homozygous K10-I r but crossovers ocur so r in not a reliable marker; 37485 from r wx
37490	R-nj + / r w2; ? or R-nj w2 / r +; ? (35680 A) @	r seeds gave no w seedlings but plant 37490-2 appears to be +/w2; 37490 from r
37492	R-nj + / r w2 (35680) @	ear segregates for w2; 37492 from R-nj
37494	Df K10(C) R - - - / N10 r1 W L Sr X r r W2 w2 (37142 X 37135-3)	plants with Df K10 (C) have 2 sizes of pollen grains; 37494 from R self seeds
37496	r r sr2 X gr (37443) sib	segregates for g; r tester; 37496 from r Y
37497	r r X Df K10 (I) R - / N10 r sr	used as r tester; 37497 from r seeds
37498	Df K10 (C) G R - - / N10 g r W sr2 X Df K10 (K) R1 W2 - / N10 r1 w2 + (37145 -16 X 37144-3)	used as r tester; heterozygous w2 and sr2; 37498 from r y seeds
37502	L13 / l13; (35880-7) @	37502 from Y seeds
37507	ws3 lg1 mut gl2 / + + Mut gl2; bz1 mut X bz1 mut wx1 mut (37388-1 X 37402)	37507 from bz-mutable
37509	wx bz1 mut; ws3 lg1 mut gl2 (37401) sib	tester; 37509 from bz-stable wx
37510	bz1 mut wx; ws3 lg1 mut gl2; (C/c1 ?) (36828 A-8 X -1)	tester; 37510 from bz stable wx
37513	C1 Sh1 bz1 mut Wx1 / C1 Sh1 bz1 mut wx1 ? ; Mut / Mut X C1 sg bz1-s Wx1; Mut / C1 sg bz1-s Wx1; Mut (37073 X 37075)	37513 from C1 Sh1 bz-mutable, Wx1
37514	Yg2 Sh bz1 mut Wx1 / yg2 sh bz1-s wx; Mut / mut (34469-1) @	ears tested: 3 seg Mut seed, 3 did not segregate; 37514 from sh bz1-s wx (Mut /mut ?)
37518	bz1 mut bz1; mut; Mut Mut ; seg wx (35767 sib)	37518 from bz-mutable Wx
37523	C1 C1 bz1 Mut bz1 mut Wx / wx; mut/mut (35363 sib)	tester 37523 from bz ståble, Wx1 and wx
37527	bz2-m ac2 ms8 X bz2-m ac2 (36953 ms v X 36943)	tester; 37527 from bz-stable
37528	bz2-m bz2-m ac2 ac2 wx wx (34621 sib)	tester; 37528 from bz-stable wx
37529	high-knob stock; K10 r wx1 (36530) @	37529 from y wx seed
37530	high-knob rr; high-loss with B's; KLchr 3L, A1 C R (36531 X 36535)	37530 from R mottled
37531	high-loss stock 0 B's; KL chr 3L; A1 C R (34662 sib)	sometimes poor shedder; 37531 from Pr seeds
37532	high-loss stock with with B's; KLchr 3L; A1 C R (36535) @	can be checked fro loss by crossing as male X a1; 37532 from Pr seeds
37574	bz2-m; Ac2«Ac2 / ac; wx m-1 / wx (37249 @ sl exposed)	37574 from bz very high dots, high Wx-wx variegated
37590	bz2-m; ac2 ms8; wx X bz2-m; ac ms / ac + ; wx (36944-4 ms8 X 37021)	tester, 37590 from bz stable
37591	bz2-m; Ac2 ms / ac Ms X bz2-m; ac2 ms / ac2 + (36970 -1 N X 36943)	Ac2 came from Ac2«Ac2 as low-dot exception, 37591 from bz with 5 dots
37596	bz2-m; Ac2 ms / ac Ms X bz2-m; ac2 ms / ac2 + ; same ped as 37591 above (36970-1 N X 36943)	37596 from bz with 11 dots
37600	bz2-m; Ac2 ms / ac Ms X bz2-m; ac2 ms / ac2 + ; same ped as 37591 above (36970-1 N X 36943)	37600 from bz with 19 dots
37601	bz2-m; Ac2 ms / ac Ms X bz2-m; ac2 ms / ac2 + ; same ped as 37591 above (36970-1 N X 36943)	37601 from bz with 22 dots
	END OF ACCESSIONS FROM GREENHOUSE 1984
37630	G R1 Sr2 / g r1 sr2 X K10-II r1 / N10 R1 (37285 X 37452-25)	very little crossing over between K10-II and r; but not sure abou t C/c segregation; ear had 98 col: 27 colorless; 37630 from r seeds
37633	G R1 Sr2 / g r1 sr2 X K10-II r / N10 R (37285 X 37452-12)	ear had 70 colored : 24 colorless seeds; 37633 from colorless seeds
37638	K10-I R1 / N10 r X g r1 sr2 (34681 X 34649)	type I K10 with R closely linked aear 500 R:123 r (pref seg); 37638 from R1 Wx seeds
37639	K10-I R1 / N10 r X g r1 sr2 (34681 X 34649) same as 37638 above	37639 from R1 wx seeds
37653	Df K10 (F) R - - / K10-I r1 W2 Sr2 X Df K10 (H) R1 W2 - / K10 r1 Wx1 Sr2 (36884 X 36882)	ear 102 R1 wx1 : 48 r1 wx1; 37653 from r1 wx1 (most are K10/K10)
37659	Df K10 (F) R - - / Df K10 (H) R1 W2 X r1 + / r1 w2 (C/c ?) (37139-11 sr2 X 37135-5 t gr)	spotted seeds (or pitted) = -1/w2 gives white seedlings; 37659 from R self
37661	g r1 sr2; seg wx (36698) sib	37661 from r1 Wx1
37662	Df K10 (C) R - - / N10 r1 W2 Sr2 X r + / r1 w2 (37142 X 37135 -5)	self col should be Df K10 (C) R - - / N10 r1 W Sr; 37662 from R self col
37662A	Df K10 (C) R - - / N10 r1 W2 Sr2 X r1 + / r1 w2 (37142 X 37135-3)	37622 A from R self
37663	Df K10 (I) R - - / N10 g r1 W2 sr2 X r1 + / r1 w2 (37127-12 sr2 X 37135 -3t)	observed 6.7 % recombination R-differential segment of Df K10 (I),; 37663 from R1 seeds
37665	Df K10 (F) R - - / N10 r1 + sr2 X r1 + / r1 w2 (37123 X 37135-5t)	37665 from R1 self
37669	Df K10 (C) R - - / N10 r1 W2 sr2 X Df K10 (K) R1 W - / N10 r1 w2 + (37145-16 sr2 X 37144-3)	may segregate c ?; 37669 from colorless (most are +/w2)
37673	Df K10 (C) R - - / N10 g r1 W2 sr2 X Df K10 (K) R1 W2 - / N10 r1 w2 Sr2 (37146-6 sr2 X 37144-3)	37673 from colorless (most are +/w2)
37729	high-loss stock with B's (36535 sib)	37729 from Pr seeds
37730	high-loss stock with B's X K10-II r1 / K10-II r1; 2 or 3 B's (37532 X 37456-12)	plant 37456-12 checked by PMC; 37730 from Pr seeds
37742	wx1 bz1 mut; ws3 lg1 mut gl2 (37510) sib	37742 from bz stable
37743	wx1 bz1 mut; ws3 lg1 mut gl2 (37509) sib	37743 from bz stable
37751	bz2-m; + Ac2«Ac2 + / ms8 ac v16 X bz2-m; ms ac v / + ac v (37327-12 N X 36994-43)	ear had 1 high dot:1 no dot with a few low dot; 37751 from bz stable
37767	bz2-m; + Ac2«Ac2 + / v16 ac2 ms X v16 ac2 ms /+ (37327-14 N X 37005-24)	37767 from bz-mutable (intermediate dot)
37768	bz2-m; + Ac2«Ac2 + / v16 ac2 ms X v16 ac2 ms /+ (37327-14 N X 37005-24) same as 37768 above	presumed to be a new Ac2 derived from Ac2«Ac2 ; 37768 from bz-mutable (low dot)
37784	bz2-m; + Ac2«Ac2 + / v ac2 ms X bz2-m; v ac ms / v ac + 9 (37327-5 N X 36990 -14 v Ms)	37784 from bz mutable (100 or more dots) = intermediate
37797	bz2-m; + Ac2«Ac2 + / v ac2 ms X bz2-m v ac ms / v ac + (37327-3 N X 36984-2)	probably no change in Ac2«Ac2; 37797 from bz mutable (50 to 150 dots)
37801	bz2-m; + Ac2«Ac2 + / v ac2 ms X bz2-m v ac ms / v ac + (37327-19 N X 37005-100)	still segregating, hi dots when tested; 37801 from bz mutable (50 to 150 dots)
37811	bz2-m; + Ac2«Ac2 + / v ac2 (ms) X bz2-m v ac (ms) / v ac + (37327-10 N X 36994-43)	not segregating for ms; one parent was not heterozygous for ms; 37811 from bz stable
37812	bz2-m; ac ms / ac ms X bz2-m ac2 ms / ac2 + (36944-4 ms X 37201)	tester, 37218 from bz-stable
37813	bz2-m ac2 ms8 X bz2-m; ac2 ms / ac2 + (36993 X 37021)	tester, 37813 from bz stable (Wx and wx)
37814	bz2-m ac2 ms8 X bz2-m; ac2 ms / ac2 + (36993 ms X 37021) same as 37813 above	tester; 37814 from bz stable (wx and wx)
37831	bz2-m Ac2 + / ac ms X bz2-m ac2 ms / ac2 + (36952-1 N X 36943)	Ac2 derived from Ac2«Ac2 as low dot exception; 37831 from bz mutable (28 dots)
37856	bz2 ac2 ms8 X bz2-m ac ms / ac + (36993 X 37021)	tester; 37856 from bz stable wx
37863	bz2; tr Ac / ac; Ms / ms8 X bz2-m ac ms / ac + (37015 N X 36943)	probably tr Ac from Ac2«Ac2; 37863 from bz2 (7 to 30 dots)
37864	bz2-m tr Ac / ac; Ms / ms8 X bz2-m; ac ms / ac + (37597 N X 37527)	probably tr Ac from Ac2«Ac2; 37864 from bz mutable hi dots
37865	bz2-m tr Ac / ac; Ms / ms8 X bz2-m; ac ms / ac + (37597 N X 37527) same as 37864 above	37865 from bz mutable (1 to few dots)
37867	bz2-m; Ac2«Ac2 / Ac2«Ac2; wx m-1 / wx1 (37574 -1) @	Bz = possible reversions from bz2-m; 37867 from Bz with low wx -> Wx spots
37868	bz2-m; Ac2«Ac2 / Ac2«Ac2; wx m-1 / wx1 (37574-1) @; same as 37867 above	37868 from bz2 mutable (wx -> Wx, low or absent )
37874	bz2-m; ac2 gl6 lg2 ( 37098 sib X -12)	tester for tr-Ac2 on chromosome 3; 37874 from bz stable Wx
37883	bz2-m ac2 wx (34621 sib gl X N)	unidentified gl segregation, 37883 from bz stable wx
37890	I Bz Wx Ds A1 R1 y1 X McC Dp9 Yg2 C1 Sh wx1 / N9 (yg2) c1 sh wx1 (37210 X 37183-4)	37890 from I with no C spots + I/c ?
37919	Bz2 / bz2 m; ( Ac2«Ac2 / ac ); wx1 wx1	ear segregates for Bz, bz mutable (low), and bz stable; 37919 from Bz
37933	bz2-m; ( Ac2 Ac2 Ac2 / Ac2«Ac2); (37274 @ wx1 wx1)	all but one kernel of the ear had dots; 37933 from bz mutable (nearly self col = very high dot number)
37934	Bz R-1 / bz2-m; Ac2/ac2 X bz2-m ac2 (35110 X KN 622-4)	Bz reversion from bz-m/bz-m ac2 ac2 FEMALE X bz2-m bz2-m Ac2 / Ac2 MALE; KN = K. Newton; 37934 from Bz kernels
37935	Bz R-2 / bz2-m; Ac2 / ac (35112-1 t) @	Bz2 reversion as above for entry 37934; 37935 from Bz kernels
37936	Bz R-2 / bz2-m; Ac2/ac2 X bz2-m ac2 (35112-1 X KN 622-1)	37936 from Bz kernels
37937	Bz R-3/ bz2-m; Ac2/ac2 X bz2-m ac2 (35112-2 X KN 622-1)	two reversions in 35112 (independent events presumably); 37937 from Bz
37938	Bz2 R-4/ bz2-m; Ac2/ac2 ( 35117 @ )	Bz reversion as above in 37937; 37938 from Bz
37939	Bz2 R-5 / bz2-m; Ac2/ac2 tr-Ac / ac (35119) @	ear had 200 Bz: 65 bz mutable (high, med, and low dots) and 21 bz stable; Bz from reversion as above in 37937 ; 37939 from Bz
37940	Bz2R-6/ bz2-m; Ac2/ac2 (35119 @ A)	Bz reversion as above; 37940 from Bz
37941	Bz2 R-6/ bz2-m; Ac2/ac2; bz2-m ac2 (351119 A t X KN 622)	37941 from Bz
37942	Bz2 R-7/ bz2-m; Ac2/ac2; tr Ac / ac (35123) @	ear 185 Bz:49 bz mutable (hi, med lo): 11 bz stable; 37942 from Bz
37943	Bz2 R-8 / bz2-m; Ac2/ac2;bz2-m ac2 (36044 -1 X 36000 -16)	Bz reversion as above; 37943 from Bz
37944	Bz2 R-9/ bz2-m; Ac2/ac2; bz2-m ac2 (36044-2 X 3600 -13)	Bz reversion as above; 37944 from Bz
37945	Bz2 R-10/ bz2-m; Ac2/ac2; (tr Ac / ac) X bz2-m ac2; ms /+ (36060 X 36127-1)	Bz reversion as above; ear 178 Bz: 104 bz mutable (hi and lo): 56 bz stable; 37945 from Bz
	END OF SECOND SET OF INFO SHEETS SENT BY	ELLEN DEMPSEY ;
37946	Bz2 R-11/ bz2-m; Ac2/ac2; bz2-m ac2; ms /+ (36082 X 36000-16)	Bz revertant as above, 37946 from Bz
37947	Bz2 R-12/ bz2-m; Ac2/ac2; bz2-m ac2; ms / + (36102 X 36127-1)	Bz revertant as above, 37947 from Bz
37968	a-mrh / a-mrh; sh Wx1 Mrh / Sh wx1 mrh X a1 a1; Sh wx1 Mrh / sh wx1 Mrh (33059 X 33064 -3)	37968 from many dot kernels, Sh Wx1
37971	KL yg2 C1 sh bz wx1 X Yg C1 sh bz1-mut wx1 / (KL) yg C1 sh bz1s wx1; mut / mut (34654 X 34672 A-1)	37971 from C1 sh bz wx1
37972	Yg/yg c1 sh wx1 X yg2 c1 sh wx1 (34827 - 37 X 34743)	gl segregation unknown; 37972 from c1 sh wx1
37973	a1s a1s Mrh Mrh X a1s a1s Mrh Mrh (34635- A X 34636)	standard a1; this DOES NOT respond to Mrh; Dt is heterozygous in one or both parents, 37973 from a1 sh2 Dt
37974	a1s a1s Mrh Mrh X a1s a1s Mrh Mrh (34635- A X 34636) same as 37973 above	37974 from a1 sh2, no dots (some may have Dt)
37976	a1s a1s Mrh Mrh X a1s a1s Mrh Mrh (34636-B X 34635)	gl segregation is unknown, 37976 from a1 sh2 (no dots)
37979	A / a-mrh; bz2-m/bz2-m; Wx1-mrh / wx1-mrh; ac2 /ac2; Mut ? (36496-12) @	ear bz-stable segregates a-stable, 37979 from a-stable y wx1
37980	A / a-mrh; bz2-m/bz2-m; Wx1-mrh / wx1-mrh; ac2 /ac2; Mut ? (36496-12) @; same as 37979 above	37980 from a-stable y Wx1
37982	a-mrh / a-mrh; sh1 wx1 mrh (bz1 ?) (35539-14) @ gr	37982 from a-stable sh wx
37983	a-mrh / a-mrh; yg/+; sh wx1 mrh X (a-mrh/a1) yg sh wx1 mrh (35834 X 35831)	37983 from a stable sh wx1
37984	A/a-mrh; bz2-m / bz2-m; mrh ac2/ mrh ac2 (36496) @	37984 from a stable
37985	a S-M Sh 2 / a1 sh2; Mrh / Mrh (34114 @)	a S-M by mutation from a-mrh + Mrh; this does not respond to Mrh; 37985 from a Sh
37999	Df9 Wx / Yg C1 sh wx1 X wd C1 sh wx1 / Wd c sh wx1; + Wd-ring (33652-5 X 33660-13)	Wx1 marks Df 33164 but crossovers occur; 37999 from C1 sh Wx1
38004	wd C1 sh wx1 / Df 33164 Wx1; + Wd-ring (carries I) (34273 sib str X str)	38004 from I-C mosaic sh wx1 seeds
38020	tr Ac2 / gl6 lg2 ac2 ; bz2-m X Ac2 ms8 / ac2 + ; bz2-m (37421-15 X 37216N)	tr Ac2 gives low-dot kernels, 38020 from bz2 many dots, Wx1 and wx1
38021	tr Ac2 / gl6 lg2 ac2 ; bz2-m X Ac2 ms8 / ac2 + ; bz2-m (37421-15 X 37216N) same as 38020 above	38021 from bz2 high dots
38022	tr Ac2 / gl6 lg2 ac2 ; bz2-m X Ac2 ms8 / ac2 + ; bz2-m (37421-15 X 37216N) same as 38020 above	38022 from bz2 low dots (> 7)
38023	tr Ac2 / gl6 lg2 ac2 ; bz2-m X Ac2 ms8 / ac2 + ; bz2-m (37421-15 X 37216N) same as 38020 above	38023 from bz2 with 1-7 dots
38024	tr Ac2 / gl6 lg2 ac2 ; bz2-m X Ac2 ms8 / ac2 + ; bz2-m (37421-15 X 37216N) same as 38020 above	38024 from bz2 no dots
38025	Df K10 (C1) R1 - - / N10 r1 W2 Sr2 X K10 + r1 + + / N10 g r1 + sr2 (37494 with 2 pollen sizes X 37495-13)	some progeny plants checked by PMC; 38025 from R1
	# 38027 THRU 38040 - CROSS SIMILAR TO THIS WAS SOURCE OF 3 NEW MUTABLE SYSTEMS	# 38027 THRU 38040 - CROSS SIMILAR TO THIS WAS SOURCE OF 3 NEW MUTABLE SYSTEMS
38027	high-loss / high knob X bz2-m ac2 (37530-1 X 37528)	high loss is A1 C1 R1 and has KLon 3L; high knob is K10 r / K10 r and all chromosomes have knobs except chrom 9; 38027 from self and mottled seed
38029	high-loss / high knob X bz2-m ac2 (37530-3 X 37528)	38029 from self and mottled seed
38032	high-loss / high knob X bz2-m ac2 (37530-6 X 37528) same as 38029 above	38032 from self and mottled seed
38035	high-loss / high knob X bz2-m ac2 (37530-9 X 37528) same as 38029 above	38035 from ( self and mottled) 2 sizes of kernels
38039	high-loss / high knob X bz2-m ac2 (37530-11 X 37528) same as 38029 above	38039 from self and mottled
38040	high-loss / high knob X bz2-m ac2 (37530-12 X 37528) same as 38029 above	38040 from self and mottled
38055	+ + Mut gl / ws lg mut gl; bz1-mut X ws3 lg1 Mut + / ws3 lg1 mut gl; bz1-mut (37355 X 37350)	some mottled kernels make classification difficult; 38055 from bz-mutable fairly low dots
38056	bz1-mut / bz1-mut; Mut /Mut; Wx1 / wx1 X yg sh bzs Wx1 / yg sh bzs wx; Mut/mut (37518 X 37517-2 yg)	bz1s = standard bz1; 38056 from bz-mutable Wx1
38057	bz1-mut / bz1-mut; Mut /Mut; Wx1 / wx1 X yg sh bzs Wx1 / yg sh bzs wx; Mut/mut (37518 X 37517-2 yg) same as above	38057 from bz-mutable wx1
38071	bz2-m; v16-ac2; ms8 /+ (36994-43 @)	tester, 38071 from bz-stable
38081	Df K10 (C) R - - / N10 r W2 Sr2 X K10-II r / K10-II r; 2 or 3 B's (37494 with 2 pollen sizes X 37456-12)	38081 from R1
38082A	bz1-mut wx1; Mut/mut X ws3 lg1 mut gl2; bz1-mut wx1 (37507-1 X 37510)	38082A from bz1-mutable, wx1
38089	bz1-mut; + + Mut + / ws lg Mut gl X ws3 lg1 mut gl2; bz1-mut (37512 Gl X 37510)	38089 bz-mutable seeds
38090	bz1-mut; + + Mut + / ws lg Mut gl X ws3 lg1 mut gl2; bz1-mut (37512 Gl X 37510) same as 38089 above	38090 bz-mutable, lighter background
	GREENHOUSE 1985 PLANTING #38128 THRU #38205	GREENHOUSE 1985 PLANTING #38128 THRU #38205
38128	high-loss X high-loss/K10-II (37729-5 X 37730-22)	plants 38128-2 and -3 had K10-II/N10 and at least 6 B's by PMC; 38128 from Pr
38131	high loss with B's; (35333-12 sib)	38131 from Pr
38153	Gl6 tr-Ac2 Lg2 A1 / gl6 ac2 lg2 a1; bz2-m X gl6 ac2 lg2 A1; bz2-m ( 36837 X 36836-6)	tr-Ac2 on chromosome 3 came from Ac2 on chromosome 8, 38153 from bz mutable
38159	high-knob K10r / K10 r (34676-5 X sib)	38159 from y seeds
38163	Yg bz1-mut Sh wx1 / yg bz1s sh wx1; Mut / Mut (38057-B) @	38163 from bz1s sh1 no dots
38164	bz1-mut bz1-mut; Mut / Mut (37518 sib)	38164 from bz1-mut with dots; Wx1
38165	bz1-mut bz1-mut; Mut / Mut (37518 sib); same as 37518 above	38165 from bz1-mut with dots, wx1
38186	a1-mrh / a1-mrh; Mrh / Mrh (37969-2) @	38186 from a1-mutable
38187	a1-mrh Sh2 / a1 sh2; Mrh / Mrh; dt / dt (37964-3 )@	38187 from a-mrh Sh2 Mrh
38189	a1-mrh; sh1-wx-mrh (37982) @	heterozygous or homozygous bz1; may segregate for Dt; 38189 from a-stable
38192	a-mrh / (a1 sh2); (tr-Mrh ? /m) X c1 sh bz wx1 (37962-5 X 37970)	38192 from Pr Wx1
38198	bz2-m; ms ac2 v16 / ms ac2 + X Ms ac2 v16 / Ms ac2 v16; bz2-m (37751-6 X 37811-4)	v16 homozygotes do poorly in GH; 38198 from bz-stable
38199	bz2-m; ms ac2 + / ms ac2 v16 X + ac2 v16 / ms ac2 v16 (37782 X 37811-5)	38199 from bz-stable
38205	bz2-m; ms ac2 v16 / ms ac2 + X ms /+ ; ac2 v16; bz2-m (37756-15 X 37811-1 )	38205 from bz-stable
	FIELD 1985 PLANTING #38210 THRU #38820	FIELD 1985 PLANTING #38210 THRU #38820
38210	bz2-m; ms ac2 v16 / ms ac2 v16 X + ac2 v16 / ms ac2 v16; bz2-m (37775 ms X 37751-10)	38210 from bz-stable
	Df 33166 gave rise to Dp9 (MMR) - see 36652. Df 33166 arose when a high-loss stock with KL9 was used as a male parent. It is deficient for Yg but seems to have small heterochromatic cap on 9S; Df 33166 gives high-loss behavior in microspores with 1 B chromomose ( traditional high loss spores have 2 or more B's); chromosome breaks tend to occur in distal half of 9S unlike high loss	Df 33166 gave rise to Dp9 (MMR) - see 36652. Df 33166 arose when a high-loss stock with KL9 was used as a male parent. It is deficient for Yg but seems to have small heterochromatic cap on 9S; Df 33166 gives high-loss behavior in microspores with 1 B chromomose ( traditional high loss spores have 2 or more B's); chromosome breaks tend to occur in distal half of 9S unlike high loss
38212	Yg2 / yg2; c1 sh wx1 X wd C1 Sh wx1 / Df 33166 C1 sh Wx1; + ring with Wd and I (33983 X 33919-20 wd str)	38212 from Pr, C-c sh Wx-wx
38225	wd C1 Sh wx1 gl / Df 33166 C1 sh Wx1 +; with I Wd ring X yg c1 sh wx1 (33936-8 X 33918)	Df= Df 33166; 38225=str plant which is (gr-yg); 38225 from I-C sh wx
38261	bz2-m; + Ac2«Ac2 Ms / v16 ac2 (Ms) X v16 ac2 ms8/+; bz2-m (38142L-2 X 38198 v16)	38261 from bz with many dots
38276	g r sr2 X g r sr2 (36698-8 X sib)	segregates for wx1; 38276 from r Wx1
38314	K10-II r / N10 R1; high loss with 2 B chroms X high loss with B's (38130-4 X 38131 A1 C R)	8 plants in 38314 checked by PMC- all heterozygous K10-II; number of B's ranging from 3 B's to 9 B's; 38314 from mottled seed
38316	+ + Mut + / ws3 bz1 mut gl2; bz1-mut X ws3 lg1 mut gl / ws3 lg1 Mut gl; bz1-mut (38090 X 38089)	38316 from bz-mutable
38324	+ + Mut + /+ + Mut + ; bz1-mut Wx1 / bz1-mut wx1 (37518 sib)	36324 from bz1 mutable Wx1
38325	+ + Mut + /+ + Mut + ; bz1-mut Wx1 / bz1-mut wx1 (37518 sib); same as 38324 above	38325 from bz1 mutable wx1
38329	ws3 lg1 Mut + / + + mut gl; bz1-mut X ws lg mut gl; bz1-mut wx (38055 X 37742-2)	38329 from bz1-m; no dots
38333	ws3 lg1 mut gl2; bz1-mut wx1 (37510 sib)	38333 from bz-stable
38339	c1 sh bz1 wx1 (37970 sib)	38339 from c1 sh wx1
38351	Sh1 bz1 mut wx1 / sh bz1 wx1; Mut / mut (38057-A ) @	Bz= possible reversion from bz1-mut; 38351 from Sh Bz wx1
38353	ws3 lg1 mut gl / + + Mut +; bz1 mut wx1 X same (38082-A-13 X A)	Bz=possible reversion from bz1-mut; 38353 from Bz wx
38361	ws3 lg1 mut gl / + + Mut +; bz1 mut wx1 X same (38082-A-9 X B)	Bz=possible reversion; 38361 from Bz wx
38454	Df K10 (C1) R1 - - - / K10 r1 L W Sr2 X g r sr2 (35524-B X 35534g)	recombination between R and Df-C is higher when heterozygous with K10 then when heterozygous with N10; 38454 from R1 seed
38455	Df K10 (K) R-g - / N10 g r-r sr2 X (r-r) + Sr2 / (r-g) w2 Sr2 (35016 X 34980-3)	segregates pink and green anthers; r superscripts are tentative; 38455 from R seeds
38456	Df K10 (C1) R1 - - / Df K10 (H) r W2 - X r w2 + / r W2 sr2 (38121-10 sr) (self ? sib ?-no info)	38456 from R self seeds
38458	bz2-m; v16 ac2 / + ac2; (+/ms) X bz2-m; + Ac2«Ac2 + / v16 ac2 + (38198-7 gr X 38140)	38458 from bz-mutable (range in no of dots)
38482	bz2-m; + Ac2«Ac2 + / v16 ac ms X bz2-m; v16-ac2; ms8/+ (38140-4 X 38198 v16)	38482 from bz2 many dots
38490	bz2-m; + Ac2«Ac2 + / v16 ac ms X bz2-m; v16-ac2; ms8/+ (38140-4 X 38198 v16) same as 38482 above	38490 from bz-stable
38599	ws3 lg1 Mut gl / ws lg mut gl; bz1-mut X sweet corn (38054 X NK199 su)	38599 from Pr seeds
38616	Bz2 R-7 / bz2-m; Ac2/(); tr Ac / () (37942) @	ear had following seg ratios: 186 Bz: 68 bz mutable: 13 bz-stable; Bz=reversion from bz2-m; 38616 from Bz seeds
38660	bz2-m ac2; +/v16 X high knob progenitor of Ac2 system (38205 X 38159-2) anther pollination	high-knob stock, segregates for Ac2; 38660 from Pr seeds
38663	bz2-m ac2 v16 X high knob progenitor (38204 X 38158-2)	38663 from pr and Pr seeds
38677	v16 ac2 ms; bz2-m X v16 ac2; Ms/ms8; bz2-m (37775 ms X 37751-10)	tester; 38677 from bz stable
38684	bz2-m; Ac2«Ac2 / ac2; tr-Ac / ac; wx1 X bz2-m; ac2 wx1 (37318-4 N X 36943)	test crossed ears: 11 seg Ac:14 all bz-stable (tr-Ac gives lo dots and some no dot kernels) 38684 from bz2 no dots, wx
38705	a1 Dt (brown plant color) X bz2-m; Ac2«Ac2 / Ac2 (37958-A X 37925-6 t)	segregating for bz ?? segregating for B Pl; 38705 from self col Wx seeds
38708	a1 Dt (brown plant color) X bz2-m; many Ac2 doses (37958 X 37923-3)	segregates for B Pl; 38708 from Pr seeds
38779	+ Sh bz1 mut / yg2 sh bz1; Mut / mut (38057 @ - A)	3/4 of the progeny plants should carry Mut; 38779 from sh bz1 no dot seeds
38780	bz1-mut; mut (35363 X sib)	tester for Mut ; 38780 from bz1-stable
38786	a-mrh / a1; Sh wx1 Mrh / sh Wx Mrh; prob dt dt (37968 ) @	segregates for yg; amrh - Mrh interaction gives much higher dot no than a1-Dt; 38786 from Sh Wx; a-mutable (high dots)
38787	a-mrh / a1; Sh wx1 Mrh / sh Wx Mrh; prob dt dt (37968 ) @ ; same as 38786 above	segregates for yg; 38787 from Sh Wx1; a-mutable (very high dots)
38788	a-mrh / a1; Sh wx1 Mrh / sh Wx Mrh; prob dt dt (37968 ) @ ; same as 38786 above	segregates for yg; 38788 from Sh wx1; a-mutable
38790	a-mrh / a1; Sh wx1 Mrh / sh Wx Mrh; prob dt dt (37968 ) @ ; same as 38786 above	38790 from Sh wx1; a-stable
38806	ap / a1; probably dt dt X a-mrh /a-mrh; Mrh/mrh (or it may be) a-mrh/a; Mrh/Mrh (37949 X 37969-4)	ap = new pale allele from a1 Dt system - this arose in 32119, does not respond to Dt or to Mrh; 38806 from pale with dots
38807	a-mrh Sh / a1 sh2; mrh / mrh X a-mrh /a-mrh; sh1 wx1 mrh / sh1 wx1 mrh (37961-3 X 37982 yg)	37982 may segregate for bz1; 38807 from a-stable Sh
38808	a-mrh Sh / a1 sh2; mrh / mrh X a-mrh /a-mrh; sh1 wx1 mrh / sh1 wx1 mrh (37961-4 X 37982)	38808 from a-stable Sh
38820	a-mrh Sh / a1 sh2; Mrh / Mrh X a-mrh / a-mrh; Mrh/Mrh (38187 X 38186)	38820 from dotted-colorless sectored kernels
	GREENHOUSE 1986 PLANTINGS, # 38867 THRU #38943	GREENHOUSE 1986 PLANTINGS, # 38867 THRU #38943
38867	Df K10 (C1) R1 - - / N10 g r W sr2 X Df K10 (K) R1 W2 - / N10 r w2 Sr2 (38454-10 sr X 38455-11)	38867 from R deep color (self)
38876	K10-II r Sr2 / Df K10 (H) R - X g r sr2 (38274-8 X 38276-1)	38876 from r seed (segregates for wx)
38888	bz2-m; + ac2 ms8 / v16 ac2 ms8 X v16 ac2; ms8/+; bz2-m (38382 ms X 38210)	tester; 38888 from bz2, pr, Wx
38889	bz2-m; + ac2 ms8 / v16 ac2 ms8 X v16 ac2; ms8/+; bz2-m (38382 ms X 38210) same as 38888 above	38889 from bz2, pr, wx1
38891	bz2-m; + Ac2«Ac2 + / v16 ac2 ms X v16 ac2; ms8/+; bz2-m (38251-2 N X 38210)	38891 from bz2-stable
38896	bz2-m; + Ac2«Ac2 + / v16 ac2 ms X v16 ac2; ms8/+; bz2-m (38251-8 N X 38208)	38896 from bz2-stable
38908	+ ac ms / v ac ms; bz2-m X v16-ac2- ms8/+; bz2-m (38383 ms X 38677)	38908 from bz2-stable
38909	bz1-mut mut (35363 sib)	tester, 38909 from bz1-stable
38922	ws3 lg1 mut gl; bz1-mut (37510 sib)	38922 from bz1-stable
38924	v16 ac2 ms; bz2-m; Wx1 pr X + Ac2«Ac2 + / + ac2 (); bz2-m; wx1 pr (38676 ms X 38680-9)	Pr Bz = contamination or reversion; 38924 from Pr Bz
38933	(Ac2 Ac2 / ac); Bz2 A1 / bz2-m a1 {good purple} X (Ac2 Ac2 / ac2); Bz2 A1 Wx1 C1 / bz2-m a1 wx1 c1 (38708 X 38705-6)	38933 from bz1 with many dots, y
38940	+ Ac2«Ac2 ms / v ac ms; bz2-m X v16 Ac2 «Ac2 «Ac2 + / (v?) Ac ms; +; tr Ac / ac; bz2-m (38604 ms X 38672-17)	38940 from bz2 with many many dots
38942	+ ac2 ms / v16 ac2 ms; bz2-m X v16 ac2 ms/+; bz2-m (38382 ms X 38677)	38942 from bz-stable
38943	+ Ac2 ms / v ac2 + ; bz2-m X v ac2 + / v ac ms; bz2-m (38613-1 N X 38677)	single dose Ac2; 38943 from bz2 with low dots
	FIELD PLANTING 1986, ENTRIES #38950 THRU #39703	FIELD PLANTING 1986, ENTRIES #38950 THRU #39703
38950	bz2-m; + Ac2«Ac2 + / v16 ac2 ms8 X bz2-m; v16 ac2; ms /+ (38251-2 N X 38210)	38950 from bz2, with many dots
38955	bz2-m; + Ac2«Ac2 + / v16 ac2 ms8 X bz2-m; v16 ac2; ms /+ (38251-2 N X 38210) ; same as 38950 above	v16 requires temp > 74 degrees F to turn green; 38955 from bz2, no dots
38960	bz2-m; + Ac2«Ac2 + / v16 ac2 ms8 X bz2-m; v16 ac2; ms /+ (38251-4 N X 38210)	ear 1 many dots : 1 no dot and a few low dot; 38960 from bz2 many dots
38967	bz2-m; + Ac2«Ac2 + / v16 ac2 ms8 X bz2-m; v16 ac2; ms /+ (38251-4 N X 38210); same as 38950 above	new tr-Ac2 or remnant Ac2 (ie. single Ac2); 38967 from bz2 with 2 dots
38969	bz2-m; + Ac2«Ac2 + / v16 ac ms X bz2-m; v16 ac2; ms /+ (38251-7 N X 38210)	38969 from bz2 many dots
38975	bz2-m; + Ac2«Ac2 + / v16 ac ms X bz2-m; v16 ac2; ms /+ same as 38969 above; (38251-8-N X 38208)	38975 from bz2 many dots
38985	bz2-m; + Ac2«Ac2 + / v16 ac ms X bz2-m; v16 ac2; ms /+ (38251-8-N X 38208) same as 38975 above	38985 from bz2 no dots
38986	bz2-m; + Ac2«Ac2 + / v16 ac ms X bz2-m; v16 ac2; ms /+ same as 38969 above; (38251-10-N X 38210)	38986 from bz2 many dots
39020	bz2-m; v16 ac2 ms X bz2-m; + Ac2«Ac2 + / v16 ac2 + (38210 ms X 38251 -13)	not segregating for ms, segregating for wx1; Bz = possible revertant; 39020 from Bz wx1
39027	bz2-m; v16 ac2 ms X bz2-m; + Ac2«Ac2 + / v16 ac2 + same as 39020 above; (38210 ms X 38251-5)	segregates for wx1; Bz = possible revertant; 39027 from Bz
39040	bz2-m; + Ac2«Ac2 ms / v16 Ac2«Ac2 + X bz2-m; (v16) ac2; ms/+ (38932-2 N X 38942)	Bz = possible revertant; ear - all bz seeds have dots; 39040 from Bz
39049	bz2-m; + Ac2«Ac2 ms / v16 Ac2«Ac2 + X bz2-m; v16 ac2; ms/+ (38932-3-N X 38895 v16)	Bz = possible revertant ; 39049 from Bz
39068	bz2-m; v16 ac2 ms X bz2-m; + Ac2«Ac2 ms / v16 Ac2«Ac2 + (38895 ms X 38932-1-N)	Bz = possible revertant; 39068 from Bz
39069	bz2-m; v16 ac2 ms X bz2-m; + Ac2«Ac2 ms / v16 Ac2«Ac2 + (38895 ms X 38932-1-N) ; same as 39068 above	39069 from bz2 many dots
39073	bz2-m; v16 ac2 ms8 X bz2-m; + Ac2«Ac2 ms / v Ac2 «Ac2 «Ac2 + ; + tr Ac / ac ( 38893 ms X 38940 -2)	Bz = possible revertant, bz seeds with very high dot number ; 39073 from Bz
39079	bz2-m; v16 ac2 ms8 X bz2-m; + Ac2«Ac2 ms / v Ac2 «Ac2 «Ac2 + ; + tr Ac / ac same as 39079 above (38895 ms X 38940 -2)	Bz = possible revertant ; 39079 from Bz
	1986 CYTOLOGICAL STOCKS ENTRIES #39090 THRU #39131	1986 CYTOLOGICAL STOCKS
	NOTE: S = Saraiva	NOTE: S = Saraiva
39090	normal KYS (35614 sib)
39091	( Inv 1a / Inv 1a ) ?? (S776-11 X -10)	S = Saraiva
39092	( Inv 1a / N ) ?? X KYS (S775-4 X -801)
39093	Inv 2a / Inv 2a (S778-1 X -2)
39095	Inv 2b / Inv 2b (S780-6 X -10)
39097	Inv 3a / Inv 3a (S782-4 X -1)
39099	Inv 3b / Inv3b (S784-6 X -3)
39103	Inv 4a / Inv 4a (S788-5 X -10)
39105	Inv 5a / Inv 5a (S790-7 X -8)
39106	Inv 5a / Inv 5a (S790 -16 X 811 KYS)
39107	Inv 7a / Inv 7a (S792-2 X -8)
39108	Inv 7a / Inv 7a (S792 -1 X 811 KYS)
39109	Inv 9a / N (S794-1) @ ¥	Li inversions breakpoints 9S.7 - 9L.9 from Anderson 50-1412-6 / 1041-397 {see MNL 1950 and 1957}; Inversion probably carries c1 Sh Wx1
39110	T 1-6 / T1-6 (Saraiva 795 -2 X -1)	39110 from Y
39111	T 1-6 / T 1-6 (S795-5 X 811 KYS)
39112	T 1-9a / T 1-9a (S803 -6 X -7)
39114	T 5-6c / T 5-6c ( S799-17 sib)	y seed
39115	T 2-9b wx1 / N X same (Saraiva 806-4 ¥ X -1 ¥)	39115 from colored Wx1 seeds
39119	T 3-9c wx1 / T 3-9c wx1 ( S807-9 X -5)
39121	T 4-6 sat / T 4-6 sat ( S802-3 X -4)
39123	T 4-10b / T 4-10b ( S818-2 X -9)
39125	T 6-9b / N; seg K10 ? ( S814-2 ¥ X 822 KYS)
39126	T 4-9 / T 4-9 (S809-2 X -1)	DT Morgan 21-35; produced in KYS, probably by X-rays; breakpoints 4 L.4 - 9L.6; See photos pg 172 MMR Chapter Corn and Corn improvement
39127	(T 5-9c / N; Inv 1a / N ) (Saraiva 812-8 ¥ X 801 normal KYS)
39128	T 8-9a / T 8-9a ( S816-4 X -3)
39130	T a74 / N (S819-7 ¥ X 820 KYS)	probably Anderson a-74 (our 9012 pedigree) 16-609-3 / 16-664-17E; {note T 3-5 is same as a-74} an unusual translocation, breakpoint in 3 is through the centromere and breakpoint in 5 is distal to knob in 5L; pairing of distal end of N5 and piece attached to 3S occurs rarely, occasionally see chains of 5 at Diakinesis; Pachytene often shows all bivalents but our 3 has protruding bits near centromere, Inclusion of K10 in genome promotes rare pairing ; see the original for sketch
39131	normal KYS (35614 sib)
39132	probably Df K10 (C1) R1 - - / Df K10 (K) R1 W2 - X KL9 yg2 C1 sh bz wx1 (38874 -1 sr2 X 38840 yg2)	39132 from R1 Wx1
39148	g r sr2 X same (36698 sib)	39148 from r Wx1
39151	r1 W2 / r1 (w2) X r1 W2 / r1 (W2) (38450-2 X 38453)	probably CC; 39151 from lt Y
39152	Df K10 (C1) R1 - - / Df K10 (H) r1 W2 - X r1 w2 Sr2 / r1 W2 sr2 (38121-10-sr X 38123 gr)	segregating for w2; 39152 from r
39162	g r1 sr2 X K10-II r1 / N10 R1; 9 B chromosomes (38276 X 38314 - 57)	ear R1 mottled and r1; sr plants are new Df K10-II cases; 39162 from r1
39166	"Df K10 (C1) R1 - - / Df K10 (H) r1 W2 - X r1 w2 Sr2 / r1 W2 sr2 (38121-10-sr X 38123 gr)	sr plants in progeny are new Df-K10-II cases; 39166 from r
39172	r1 + sr2 / r (w) sr2 X K10-II r1 Sr2 / N10 R1 Sr2 same as 39166 above (38291 sr X 38314-57)	39172 from r1
39178	g r1 sr2 X K10-II r1 Sr / N10 R1 Sr with 9 B chromosomes (38574 X 38585-1 anther pollination)	39178 from r1
39180	g r1 sr2 X K10-II r1 Sr / N10 R1 Sr with 9 B chromosomes same as 39178 above (38574 X 38585-1 )	39180 from r1
39185	a1/a1; Sh1 wx1 Mrh / sh1 Wx1 Mrh; dt/dt (38790 @ )	tester for a-mrh; segregates for yg, 39185 from a-stable Sh Wx
39186	a1/a1; Sh1 wx1 Mrh / sh1 Wx1 Mrh; dt/dt (38790 @ ) same as 39185 above	39186 from a-stable sh Wx1
39191	a1p / a-mrh; mrh / mrh (38191 @)	ear segregates pale and colorless (39191 from colorless)
39192	a-mrh a-mrh; Mrh Mrh (38823 @)	39192 from a-mutable
39194	a-mrh a-mrh; Mrh Mrh (38788 @)	39194 from a-mutable
39202	ap / a-mrh; Mrh/mrh dt X a-mrh Sh / a1 sh2; mrh/mrh dt (38806 X 38807-2t)	39202 from pale with many dots
39210	gl lg a1 sh2; Dt/dt X a1 sh2 (dt ?) (36186A-3 lg X 36186)	39210 from a1 sh2 (no dots ?)
	# 39247 thru # 39259 : some "revertants" are not stable for Bz	# 39247 thru # 39259 : some "revertants" are not stable for Bz
39247	Sh Bz R-1 wx1 / sh bz1 wx1 ; Mut / mut X C1 sh bz1 wx1 (36917 X 36898)	Bz = revertant from bz1-mut; 39247 from C1 Sh Bz1 wx1
39248	C1 Sh Bz R-2 Wx1 / C1 sh bz1 wx1 ; Mut / mut X C1 sh bz1 wx1 (36916 X 36898)	Bz = revertant from bz1-mut; 39248 from C1 Sh Bz1 Wx1
39249	Sh Bz R-3 / c1 sh bz1 wx1 ; Mut / mut X C1 sh bz1 wx1 (38915-2 X 38840 yg)	Bz = revertant from bz1-mut; 39249 from Sh Bz1
39259	Sh Bz R-4 / sh bz1; Mut / mut X C1 sh bz1 wx1 (38916-A X 38840 yg)	Bz=revertant; 39259 from Sh Bz
39267	KL9 C1 sh bz1 wx1 X seg Yg/yg 38840 sib gr X yg (38840 sib gr X yg)	39267 from sh bz1 wx
39365	g r1 sr2 X K10-II r1 / N10 R1 high loss with 8 B chroms (38576 X 38585 -14) anther pollination	sr cases = new Df K10-II, 39365 from r
39379	g r1 sr2 X K10-II r1 / N10 R1 high loss with 6 B chroms; same as 39365 above; (38576 X 38585 -15)	sr=new Df K10-II, 39379 from Y colorless
39435	bz2-m; + Ac2 + / v ac + X v16 ac2; +/ms; bz2-m (38252-1 N gr X 38210)	Ac2 isolated from Ac2«Ac2; 39435 from bz- mutable, med dot number
39436	bz2-m; + Ac2 + / v ac + X v16 ac2; +/ms; bz2-m same as 39435 above (38252-1 N gr X 38210)	39436 from bz-mutable, high dot
39469	bz2-m; v16 ac2 ms X v16 ac2; ms/+; bz2-m ( 37769-A ms X 37751-10)	39469 from bz-stable
39470	bz2-m; v16 ac2 ms X v16 ac2; ms/+; bz2-m ( 37769-A ms X 37751-10) same as 39469 above	39470 from bz-stable
39506	c1 sh bz1 wx1 X bz2-m; Ac2«Ac2/ac2; (A1/a1) (38939 X 38933-3)	male parent with plant color factors, 39506 from C1 with small bz areas
39507	c1 sh bz1 wx1 X bz2-m; Ac2«Ac2/ac2; (A1/a1) (38939 X 38934-1)	male parent has plant color factors, 39507 from light mottled
39511	Bz2-m R-7 / bz2-m; Ac2 / Ac2 (38616-2 @)	Bz revertant from bz2-m, 39511 from Bz
39521	bz2-m; + Ac2«Ac2 + / v16 ac2 ms; tr-Ac / ac X bz2-m; v16 ac2 ms /+ (38487-N X 38677)	ear segregation pattern 2 many dots:1 low dot: 1 no dots and a new tr-Ac; 39521 from bz-mutable low dots
39525	bz2-m; + Ac2«Ac2 + / v16 ac2 +; Ac / + X bz2-m; v16 ac2; ms /+ (38231-7 N X 38210-12)	new tr-Ac; 39525 from bz-mutalbe low dots
39532	bz2-m; + Ac2«Ac2 + / v16 ac2 (+); Ac /+ X bz2-m; v16 ac2 (ms /+ probably) (38482-N X 38490-32)	did not segregate v16 or ms, 39532 from bz-mutalbe low dots
39551	Bz R-7 / Bz R-7 X Ac2/(Ac2); (tr-Ac ?) 38616 colored anthers @ (38616 colored anthers @)	segregate gm (= germless) and reversed embryo; Bz revertant from bz2-m; 39551 from Pr
39552	(gl) Lg A1 In3a / gl lg2 a1 (sh et) X a1-mrh / (a1); mrh/mrh (36678-¥ -51 X 36673 yg (C1) sh1 wx1)	segregating for gl and lg, 39552 from a1 Dt
39553	c sh bz1 wx1 (37970 sib)	39553 from c1 sh wx1
39554	a2 bt pr X a2 bt pr (38006 X 38005)	39554 from a2 bt pr
39555	Bz R-7 (38616) @	genotype uncertain, 39555 from colored Wx1
39556	Bz R-7/ bz2-m Ac2/ac2 (38616-1) @	39556 from Bz
39703	bz2-m; + Ac2«Ac2 + / v16 ac2 ms X bz2-m; v16 ac2 ms 8/+ (38231-2 X 38210-1)	39703 from bz mutable, many dots
39794	Df K10-II r1 - / N10 r1 sr2 ; 4B chromosomes X g r1 sr2 (39172-10 lo ¥ G sr2 X 39148)	PMC shows knobless chromosome 10 = Df for Sr2 and knob; 39794 from r seeds (small sized)
39797	Df K10-II r1 - - / N10 g r1 W2 sr; 2 B chromosomes X g r1 sr2 (39178-27-N sr X 39148)	PMC show knobless chromosome 10 slighly longer than N10, 39797 from r1
39798	Df K10-II r1 - / N10 g r1 sr; 1 B chromosome X g r1 sr2 (39180-13 sr X 39148)	chromosome 10 knobless, slightly longer than N10; 39798 from r1 y
39808	Df K10-II r1 - - / N10 r1 W sr X g r1 sr2 (39385-5 sr N pollen X 39184)	chromosome 10 knobless and slightly longer than N10; 39808 from r y Wx1
39810	r1 W2 sr / Df K10-II r1 - - X r1 w2 Sr / r1 + Df (H) (39164-8 second ear badly exposed X 39152 gr t)	defective seed on ear gives white seedlings; 39810 from Y plump seed
39837	KL9 yg2 C1 sh bz wx1 X Df K10 (C1) R1 - - / Df K10 (K) R1 W2 -; KS9 Yg (38840 yg X 38872-3 sr)	39837 from R1 C1
39839	high-loss no B chroms - K3 K3 (34662 sib )	39839 from Pr
39840	high-loss with B chroms; K3 K3 (35334 sib )	check for loss of A1 by crossing to a1 female, 39840 from Pr
39847	K10 K10 high-loss with B chroms (36648-7 X -6)	39847from Pr
39848	K10 (N 10) high-loss with B chroms (36649-5 X -8)	39848 from Pr
39849	KL9 (N9) C1 sh ;high-loss (36671 sib X -27)	39849 from C1 sh
39854	l13 / + (37502-A @)	39854 from Y
	FIELD PLANTING FOR 1987, ENTRIES # 39891 THRU #38943
39891	g r1 sr2 X g r1 sr2 (39153 X 39154)	39891 from r, Y and g
39894	K10-II R1 / N10 r1 X g r sr2 (38287-a X 38276)	all plants g, no sr2; K10-II gave preferential segregation (72.5% R1 on ear); 39894 from R1
39897	K10-I r1 Sr2 / N10 r1 sr2 X Df K10 (I) R - / N10 r1 sr2 (37440 X 37127-11 sr)	segregating for sr2, all r-r 39897 from r1
39903	Df K10 (C1) R1 - - / N10 g r1 W2 sr2 X Df K10 (K) R1 W2 - / N10 r1 W2 Sr2 (38454-2 X 38455-5)	39903 fro R1
39905	Df K10 (C1) R1 - - / N10 r1 W2 Sr2 X r1 w2 Sr / r1 W2 Sr ( 37142 X 37135-3)	ear segregates for spotted seeds = R - / r1 w2; 39905 from R1
39911	r1 l1 er2; y A1 A2 (C1 / c1) (Pl/pl) (Coop 82-1623-7a @ = X 15B)	39911 from y
39914	a1p / a-mrh; mrh / mrh X a-mrh / a-mrh; Mrh / Mrh (39189-B X 39192-12)	39914 from a-mrh with dots (not pale)
39916	a1p / a-mrh; mrh / mrh X a-mrh / a-mrh; Mrh / Mrh ; same as 39914 above (39189-A X 39182-10)	"3" = a 1P / a1S new a-stable allele; 39916 from pale no dots
39917	a1p / a-mrh; mrh / mrh X a-mrh / a-mrh; Mrh / Mrh ; (39189-A X 39182-10) same as 39916 above	= a 1P / a1S new a-stable allele; 39917 from pale + 2 dots
39921	a1p / a-mrh; mrh / mrh X a-mrh / a-mrh; Mrh / Mrh ; same as 39914 above (39190-C X 39192-11)	"2" = a1P / a1S new a-stable allele; 39921 from pale no dots
39925	aP Sh / a1 sh2; mrh / mrh X a-mrh / a-mrh ; Mrh / Mrh (39201-2 X 39192-11)	a1P / a1S new a-stable allele; 39925 from pale no dots
39930	a1P Sh / a1 sh2; Mrh / mrh X a-mrh / a-mrh ; Mrh / Mrh (39201-4 X 39192 - 11)	a1S / a1 sh2 new a-stable; 39930 from colorless no dots
39931	a1P Sh / a1 sh2; Mrh / mrh X a-mrh / a-mrh ; Mrh / Mrh (39201-4 X 39192 - 11) same as 39930 above	"1" = a1P / a1S ; "2" and "3" = a ? / a-mrh; 39931 from pale no dots
39934	a1P Sh / a1 sh2; (mrh / mrh) X a-mrh / a-mrh; Mrh / Mrh (39201-6 lg X 39194-1)	a1P / a1S new a-stable from a-mrh; 39934 from pale no dots
39937	a1P Sh / a1 sh2; mrh / ( ) X a-mrh / a-mrh; Mrh / Mrh (39201-8 X 39194-1)	embryo = a1P Sh / a1 sh2; Mrh / mrh source unclear; 39937 from A endosperm
39939	a1P Sh / a1 sh2; mrh / ( ) X a-mrh / a-mrh; Mrh / Mrh (39201-8 X 39194-1) same as 39937 above	a1P / a1S new a-stable; 39939 from pale no dots
39941	a1P Sh / a1 sh2; (Mrh / mrh) X a-mrh / a-mrh; Mrh / Mrh (39101-9 X 39194)	= a1S Sh / a1 sh2 new a-stable; 39941 from colorless no dots
39958	a1 Sh2 / a1 sh2; dt (Coop 79-483-2 ) @	89958 from a1 sh2
40000	Oh 43 Bz/Mut bz1-S / yg C1 sh bz1 wx1 ; Mut / mut; (39211-5 @)	bz1S = standard bz1; 40000 from Sh Bz Wx1
40002	L289 Bz/Mut bz1 / yg C1 sh bz wx1; Mut / mut (39221 @)	40002 from Sh Bz wx1
40003	W22 Bz/Mut bz1 / C1 sh bz wx1; Mut / mut (39228 - 2 @)	40003 fro Sh Bz Wx1
40004	M14 Bz / Mut bz1 / C1 sh bz wx1; Mut / mut (39230 - 3 @)	40004 from Sh Bz Wx1
40015	L289 Bz Wx1/Mut bz1 / sh bz wx1 X Sh bz1-mut wx1; mut (39227 -1 t X 39268)	tester; 40015 from Sh bz1-mut / bz1 wx1 mut
40017	W 23 / bz1 / C1 sh bz1 wx1 X Sh bz1-mut; mut (39217-3 t X 39268)	tester; 40017 from Sh bz1-mut / bz1 Wx1; mut
40018	W 23 / bz1 X C1 sh bz1 wx1 X Sh bz1-mut; mut (39217-3 t X 39268) same as 40017 above	tester; 40018 from Sh bz1-mut / bz1 wx1; mut
40056	Df K10-II r1 - - / N10 g r1 W sr 2 X r1 + / r1 w2 (39790-5 2 sizes of pollen grains X 39810-12 gr; and later X 39811 RR)	Df K-II = Df (M); Df K10-II has some high- loss background; double pollination; 40056 from R mottled
40078	Df K10-II r1 - - / N10 g r1 W sr 2 X v16 ac2; ms/+ (39808 -3 X 39853 R/R)	Df K10-II has some high- loss background; 40078 from R1
40084	g r sr2 X g r sr2 tester (39153 X 39154)	same as 39833 from r seed
40087	K10-I/K10-I high-loss X KL9/KS?9 high-loss (39847 X 39849g)	5 plants checked - from 3-6 B's present used as male gave loss of Yg2 and Sr2 from Pr seed
40088	KL9/KS?9 high-loss X K10-I/K10-I high-loss (39849-1 X 39847)	7 plants checked - 3-7 B's pesent from Pr seed
40089	KL9/KS?9 high-loss X K10-I/K10-I high-loss (39849-2 X 39847)	4 plants checked - 2-4 B's present from Pr seed
40134	L13/l13 (39854 -6 @)	tests show plants 4, 5, 6, 13, 16, 20 seg. luteus
40148	Df K10-II r - - (DfQ)/N10 G? r W2 ar2 X g r sr2 (39180-13 X 39184)	Df K10-II (Q) deficient for W2 L13 & Sr2 from y Wx seed
40162	Df K10-II r - - (=DfS)/N10 G? r W2 wr2 X g r sr2 (3985-5 sr N X 39148)	deficient for W2 & Sr2 (C13 uncertain) from r Y plump normal seed
40167	badly expr. gr sr2; [r W2 sr/r - -X Df K10-II(M)] X r w2 Sh2/r + Df K10-I(H) (39164-8 2nd ear X 39152-5 gr t)	flowery-like or scarred seed + w2/Df from r Y plump normal seeds
40177	r K10-II/r N10 X a2 bt pr/+ + + (39835 X 39846)	plant #22 K10-II/N10, 1B from lightly R-mottled seed
40178	a2 bt far X a2 bt far X a2 bt far (38006 X 38005)	all plants from a2 bt seed
40178A	a2 bt far X a2 bt far X a2 bt far (38006 X 38005)
40233	v16 ac2 ms8; bz2-m tester for Acr X v16 acr ms/+; bz2-m (37769A ms X 37751-10	from bz2 stable seeds
40234	v16 ac2 [ms/+]; bz2-m X v16 ac2 [ms/+]; bz2-m (39829 v X 39853)	from bz2 stable seeds
40239	tr- Ac814/ac; bz2-m X tr-Ac819/ac; bz2-m (39814A ms X 37751-10)	tr- Ac give low dot seeks combine different tr-Ac's -> many fots these tr-Ac's are linked from nany dot seeds (bz2-m + both tr=Ac's); see E. Dempsey Maydico 38: 151-161
40240	tr-Ac 814/ac; bz2-m X tr-Ac 820/ac;bz2-m (39814A v N X 39820 v)	independent to Ac's form many dot seeds; see E. Dempsey Maydico 38: 151-161
40255	tr-Ac814/ac;bz2-m X tr-Ac 820/ac; bz2-m (39824C v ms X 39820v)	linked to Ac's from many dot seeds; see E. Dempsey Maydico 38: 151-161
40258	tr-Ac-816/ac;bz2-m X tr-Ac 819/ac; bz2-m (39816F v ms X 39819 v)	linked to Ac's from many dot seeds; see E. Dempsey Maydico 38: 151-161
40260	tr-Ac-816/ac;bz2-m X tr Ac814/ac;bz2-m (39816 v N X 39814-2)	independent to -Ac's from many dot seeds
40341	r W2 se/r W2 Sr2 prob X R W2/R W2 ? (40167 Sr X 40127-20 gt)	40341 had some white seedlings from R seeds
40345	W2 L13 sr2/W2 L13 Sr23 X W2 L13 Sr2/W2 l13 Sr2 (40167-21t X 40134-6)	from Y seeds
40354	K10-II R/N10 r X L19-I R/N10 R high-loss (39894 X 40089)	#2 = K10-II/N10, 2 B's from R self seeds
40355	high-loss with B's (39840 sib)	from Pr seeds
40356	Yg2 c sh bz1 wx (37970 sib)	from c sh wx seeds
40361	bz1-mut; mut tester (35363 sib)	from bz1-m stable
40384	KL9 yg C sh bz wx/+ C + + +; Df10-I(K)/N10 X yg C sh bz wx (39882-2 gr X 39882A-5 yg)	from c sh bz wx seeds
40385	Yg C Sh Bz wx/Yg sh bz Wx X wgz C sh bz wx (39882-1 X 39881A-5 yg)	from (sh) bg Wx seeds
40485	Df K10-II(Q)r - -/N10 r WL sr X r W2 t/r + sr (40148-3 X 40167-10F)	Df(Q) lacks W2 L13 + Sr2 from Y & g seeds
40486	Df K10-II(Q)/N10 X L13 l13 (40148-3 2nd ear X 40134-20)	40486 peg luteus from Y seeds
40487	g r sr2/Df K10-II (P) X Df (H) + - /N10 wx Sr2 (89178-27 2nd ear, sr2 X 39152-8t)	40486 peg luteus from Y seeds
40515	g r ar2 X g r ar2 (39153 X 39154)	r-tester from Y & g, Wx & wx seeds
40637	[a1-mrh/a1-mrh X Mrh/mth] X [a-mrh/a-mrh X Mrh/Mrh] (39914 X 19912-3)	ears with self col. seeds have A reversions (from isolations plot) from seeds with very many dots; new A revisions
40638	[a1-mrh/a1-mrh X Mrh/mth] X [a-mrh/a-mrh X Mrh/Mrh] (39914 X 19912-3)	ears with self col. seeds have A reversions (from isolations plot) from seeds with very many dots; new A revisions
40646	[a mrh/a mrh X Mrh/mth] X [a-mrh/a X mrh/Mrh] (39914-7 X 39949-3)	from mutable seeds; new A revisions
40648	[a-mrh/a X mrh/mrh] X a-mrh/a-mrh X Mrh/mrh]	from seeds with no dots; new A revisions
40702	DfK K10-II (Q)r - - -/N10 r W L sr X r w2 + /r + sr2 (40148-3 Z 40167-10t)	ear seg (opaque seeds) from r nonopaque seeds
40704	DfK K10-II (Q)r - - -/N10 r W L sr X L13/l13 (40148-3 2nd ear X 40134-20)	ear seg l13 from r non opaque
40718	r + Df(H)/r w2 Sr2 X A1 A2 C r (39152-5 @)	ear seg w2 & sr2
40719	R-st K10/R-nj N10/r N10 trisomic-10 X r10-I/r K10-I or K10-I/r Df K10 (40331 X 40333)	40331 from Coop 83-820-3/821 (Tris. 10 X 23A) from R-nj R-st seed
40735	Df K10-I (C) R - - /Df K10-I(H) r W2 - X r W2 +/r W2 sr2 (38121-10 X 38123)	ear seg spotted defective seed = w2 seg sru from R seeds
40741	Df K10-I (C) R - - /N10 r W2 + (prob.) X high-losds W. B's (40491-1 gr X 40493	from R selg col.(?)
40775	v16 sc2 ms/+ 8; bz2-m X v16 ac2 ms g/+; bz2-m	from bz2-m ac2 wx
40795	[a1-mrh Shz/a1 shz mrh/mrh Yg2 Sh Wx/yg2 sh1 wx] @ (39200-4 @)	from a1 no dots, sh1 & Sh1
40797	[A?/a1-mrh X Mrh/mrh] X a1 shz dt (39915-2 X 39958)	possible reversion from a1-mrh ear seg B pl
40813	a1-mrh Sh2/a1 sh2 mrh mrh X a1-mrh Sh2/a1 sh2 mrh/mrh (39949 X 39983)	from a1 sh2 dt seeds
40814	a1-mrh Sh2/a1 sh2 mrh/mrh X a1 sh2 dt mrh (39942 X 39958)	from a1 sh2 dt seeds
40815	Df K10-II(M) r - - /N10 g r W2 sr2 X r + sr2/r wxz + and 39811 R/R (double pollination) (39790-5 2 size pollen grains X 39810-12 gr)	from R-mottled seeds
40825	v16 ac2 ms8; bz2-m X [+ Ac-2^Ac2 ms/V Ac^Ac^Ac + ] + [ tr Ac/ac; tr Ac/ac; bz2-m	reversion from Bz seed
40842	a-P/a1-mrh mrh/mrh (D/d?) X a-mrh/a-mrh Mrh/Mrh (Dt/dt)] (39189A X 39192-10)	any progeny ears seg A = reversion from colorless + dots (some overlap with pale + dots)
40845	a-P/a-mrh mrh/mrh X a-mrh/a-mrh Mrh/Mrh (39190-B X 39192-12)	from colorless + dots
40846	a-P/a-mrh mrh/mrh X a-mrh/a-mrh Mrh/Mrh dt/dt] (39190-C X 39192-11)	from colorless + dots
40847	a-P/a-mrh mrh/mrh X a-mrh/a-mrh Mrh/Mrh dt/dt (39190-C X 39192-11)	from pale + dots
40848	a-P Sh2/a1 sh2 mrh/mrh dt/dt X a-mrh/a-mrh Mrh/Mrh dt/dt	from (pale or colorless) + dots
40852	r W2 + /r + l13 @ (40345-4 @)	may seg. sr2 opaque = W2 from r on opaque
40867	a-P/(a-s?)(Dt/dt) X a-mrh Sh/a shz or a-mrh Sh Mrh/mrh tr Mrh/mrh dt/dt (37956 X 37959-49)	from purple color
40868	a-P/(a-s?)(Dt/dt) X a-mrh Sh/a shz or a-mrh Sh Mrh/mrh tr Mrh/mrh dt/dt (37956 X 37959-49)	from pale + high dots
40869	a-P/a-5?) (Dt/dt) X a-mrh/a-mrh X Mrh/mrh or Mrh/Mrh (Dt/dt) (37956-37969-11)	from purple cob from pale + hight dots
40870	a-P/a-5?) (Dt/dt) X a-mrh/a-mrh X Mrh/mrh or Mrh/Mrh (Dt/dt) (37956-37969-11)	from colorless + high dots
40878	a-mrh Sh/(a1 sh2) tr Mrh/mrh X a-mrh/a-mrh mrh/mrh Dt? yg? (37962 X 37982)	transposed Mrh on chr15 see MNL64 drom a-mrh low dots.
40879	3a-mrh Sh/a1 sh2 mrh/mrh X a1 sh2 dt (39942 X 39958)	from a1 sh2
40900	a-mrh a-s Mrh/mrh (Dt/at) @ (40870-2 @)	#4 had very large A sector on plant = reversion no evidence of Dt in progeny ears from a-mrh high dots
40958	a-m Neufer wx X chr 5; tr-Mrh/mrh; Wx/wx; a-mrh/A; R/r; (C/c) (NS 86133 @ 86127-2 hetero T5-9c*) (= Nancy Shepherd numbers)	tr-Mrh is a weak mutator; 1 dose thru male may not register dots; from colorless Wx no dot; * 5 mrh-9; 9 Wx; 5 Mrh; 9 x-5 Se MNL 64
40959	a-m Neufer wx X chr 5; tr-Mrh/mrh; Wx/wx; a-mrh/A; R/r; (C/c) (NS 86133 X 86127-2)	from colorless Wx no dot
40960	a-m Neufer wx X chr 5; tr-Mrh/mrh; Wx/wx; a-mrh/A; R/r; (C/c) (NS 86134 X 86127-2)	from colorless Wx no dot
40963	a-mrh Sb/a1 sh2; Mrh/mrh; dt/dt X a1 sh2 mrh dt (40905-6 X 40879)	for a-mrh /a1 sh2 tester from a Sh2 no dots
40964	a1 sh2 mrh dt X a1 sh2 mrh dt (40901 X 40879)	tester ftom a1 sh2 seeds
40974	g r sr2 seg Wx + y (39153-A X 39154)	from r seed
40983	A/a-mrh; mrh/mrh; dt/dt X a1 sh2 dt mrh (40803 X 40813)	from a-mrh/a1 wx no dots
40995	a1-m Neufer Sh2 wx X a1 sh2 dt mrh (NS 86133 X 86127-2)	from colorless Wx no dots
40997	a1-m Neufer wx X a1 sh2 dt mrh (NS 86134 X 06127-2)	from colorless Wx no dot seeds
41000	a-mrh/a-mrh; Mrh/mrh X a1 sh2 dt mrh (40846 X 40814)	from sectored ear: side 1 seg hi dots 2 no dots side 2 seg hi dots: med dots: no dots from colorless + med dotes (side 2) = tr-Mrh?
41003	a-mrh/a-mrh; Mrh/mrh X a1 sh2 dt mrh (40846 X 40814)	from colorless + hi dots (side 1)
41006	a-P Sh/a-s Sh; Mrh/mrh; Dt/dt X a1 sh2 mrh dt (39916-3 X 39958)	now a-s from a-mrh from colorless Sh no dots
41008	a-P Sh/a-s sh2; Mrh/mrh; Dt/dt X a1 sh2 mrh dt (39917 X 19958)	new a-s from a-mrh from colorless Sh no dots
41011	a-P Sh/a1-s Sh; Mrh/mrh; Dt/dt X a1 sh2 mrh dt	new a-s from colorless Sh low dots (=Dt)
41013	a-P Sh/a-s Sh; Mrh/mrh; dt/dt X a1 sh2 mrh dt (39925 X 39958)	new a-s from colorless Sh no dots
41014	a-s Sh/a1 sh2 X a1 sh2 mrh dt (39930 X 39958)	a-s may give rare dots (if so kernels may have 1 dot) from colorless Sh no dots
41016	a-P Sh/a-s Sh; Mrh/mrh; dt/dt X a1 sh2 mrh dt (39931-1 X 39958)	new a-s from colorless Sh no dots
41017	a-PSh/a-s Sh; Mrh/mrh; dt/dt X a1 sh2 mrh dt	now a-s from colorless Sh no dots
41018	a-s Sh/a-P Sh; Mrh/mrh; dt/dt X a- sh2 mrh dt (39939 X 39958-1)	new a-s from colorless Sh no dots
41019	(a-s)Sh/a1 sh2; Mrh/mrh; dt/dt X a1 sh2 mrh dt (39941 X 39958-8)	no dots on sh2 kernels checked while still uncollapsed - so no Dt; from colorless Sh low dots (a-s = a week?)
41020	a1/a1; Mrh/Mrh; dt/dt; Sh wx/sh wx X a1/a1 Mrh/Mrh; dt/dt; sh1 Wx (39185 X 39186)	standard a1 tester for a-mrh from colorless no dots Sh Wx
41024	a1 sh2 X a-mrh Sh/a1 sh2 X mrh/mrh	tester fro Mrh from colorless Sh no dots
41026	a-weak Sh/a1 sh2; Mrh/mrh prob. X a1 sh2 mrh dt (40921-3 X 40879)	weak a allele, gives lo-medium dots W1 Mrh from colorless Sh no dots
41027	a-mrh/a-mrh; Mrh/mrh X a1 sh2 dt mrh (40846 X 40814)	tester from a1 sh2 seeds
41057	byz; v16 acr2 msg X byz; v16-ac2-ms8/+ (37769A ms X 37751-10)	tester from bz2 Wx no dots
41066	a-mrh Sh/a-mrh Sh; tr-Mrh Bt/mrh Bt; dt/dt X A2 bt pr/az bt pr; A1 (40878-2 X 40882 bm)	tr-Mrh on chr. 5 from A2 Bt Pr
41069	a-mrh Sh/a-mrh Sh2; tr-Mrh Bt/mrh Bt; yg sh bz wx/ + + + + (Dt/dt?) X A2 bt pr/a2 bt pr; A1 (40877-7 X 40882 bm)	from A2 Bt Pr
41092	R K10/R-nj K10/r N10 9 K-s 2 B's X yg C sh bz wx; (Df K10(K)/N10?) (40731-27 X 40522 yg R/R)	trisomic 10 from R mottled wx
41095	Df K10 (C) R - -/N 10 R Wx Sr2 X Df K10 (H) r W2- /N10 r w2 Sr2 (40741-10 2 B's X 40735-11 gr)	ear seg sotted seeds (+Df(C)/w2) from R se;f seeds)
41096	g r sr2 X (Df K10 (C) R - - K10-I r W Sr2 (37661 X 38081-4 0 B's)	Df(C) does not transmit in male (for K10-II r) from r seed
41097	Df K10 (F) R - - /K10-I r W Sr2 X Df K10(H) R W2- /K10-I r Wx Sr2 (36883-4 X 36882-2)	should be K10r/K10r (or K10r/Df K10r by crossover) from r wx seed
41098	K10-I R/N10 R X K10-I R/N10 R (37638 X 37639-2)	from R (Pr and pr) seed
41099	K10-II g R Gr2/N10 g r Gr2 X g r sr2 (382860g X 38276)	from R seeds
41104	R-nj N10/R-st/ K10/r K10 X g r sr N10 (40719-4 X 40515)	trisomic 10 rom R-nj R-ct seeds
41105	Df K10-II (Q) r - - - /N10 G1 r W2 L Sr2 X N10 (G) r w2 Sr/N10 g r + sr (40486-4 X 40487 gr)	ear seg opaque (= Df (Q)/w2) from r non opaque seeds
41106	K10-II g R Sr2/N10 g r Sr2 X g r sr2 (38286 g X 38276)	in this stick, K10-II comes from previous K10-II/K10-I hybrid & may have crossed over with K10-I; from R seed
41110	DfK10 (C) R - - /N10 R W Sr2 X DfK10 (H) r W2 -/N10 r w2 Sr2	ear seg spotted and (=Df (C) R-/N10 r w2) from R self seed
41111	r/g r sr2 X r-r A C M14 bckgrd (40925 X 40931)	r tester from r seeds
41112	Y/y r-g A C X Y r=g A C M14 bckgrd	r tester from r seeds
41114	a1-shz ; dt X a1 shz; dt (40901-3 X 40879)	from a1 sh2 dt
41142	tr--Ac2 + + + /ac v + ;bz2-m X v16 ac2 ms8/+; bz2-m (40749 gr N X 40758)	new location of Ac2 on chr. 8 (formerly between v16 and ms8) from bz2 low dots
41148	a-x Sh/a1 sh; dt/dt X a1/a-mrh; Dt/dt; bz2-m Ac2 (40598-8 X 40617-13)	from a seed
41163	short K-m 10/N10 X r w2 Sr2/g r Wz sr2 prob (35289-3 X 35299)	K-m 10 came from Judy Miles Ring 10 which came from x rayed K10; from R Wx seeds; See MNL 66 our K-m + short K-m derivations of R-10 differ from Judy's K-m
41165	N10/K-m 19; Wx/wx X r w2 Sr2/g r-a W2 sr2 prob (35288-8 X 35299)	K-m is longer than short R-w + has chromosome region of K10; from R seeds; See MNL 66 our K-m + short K-m derivations of R-10 differ from Judy's K-m
41168	DfK10 (K) R - /N10 R Sr2 X K-L 9 yg C sh bz wx/+ C + + + (39837-101 @)	from sh bz wx seeds
41173A	bfz-m; tr-Ac-820/as X v16 ac2 ms/+; bz2-m (41028-10 X 41057)	to Ac-820 not on chr.8 + not linked w. bz2 or chr.1 from bz2-m low dot seeds
41173B	bfz-m; tr-Ac-820/as X v16 ac2 ms/+; bz2-m (41028-3 X 41057)	from bz2-m low dot seeds
41174	c2 (Cpp[ 88-3759/3756-7 pww)	from c2 seeds
41175	may seg ws2 lg1 gl2 (39273A @ + + +)	ear all col (bz1) from bz1 su
41177	A1/a-mrh; A2 tr-Mrh Bt/A2 mrh bt @ (41069-1 @)	tr-Mrh on chr.5; from a-mrh; A2 tr-Mrh Bt Pr
41178	A1/a-mrh; A2 tr-Mrh Bt/A2 mrh bt @ (41069 @ poor set)	another selfed ear; from colorless + dots Bt Pr
41179	A/a-mrh; A2 tr Mrh Bt Pr/A2 mrh bt pr (41066A @)	from colorless + low dotes, Bt Pr
41180	A1/a-mrh; A2 mrh Bt/A2 mrh Bt (41066C @)	tester ; from colorless bt (a-mrh A2 bt)
41182	A1/a-mrh; A2 mrh Bt/A2 mrh Bt (41069-101 @ Lg poor set)	from colorless bt
41183	A1/a-mrh; A2 mrh Bt/A2 mrh Bt (41069-102 @ N set)	from colorless bt
41185	A1/a-mrh; A2 mrh Bt/A2 mrh Bt (41069-104 @ N set)	from colorless bt
41187	r-g Sr2; Ph 43 bckgrd X r-g Sr2 (40932-1 X 40934)	r tester; from r
41202	c2 A1 A2 C1 R sib (Coop 88-3756/3756-7 pww )	from c2
41203	good sr (should have several B's) X g r sr z (39158-5¥ X 38967D)	39158-5 comes from high loss weht in previous generation. K10-II in male lost distal region exposing sr2; from r y seeds; may have additional aberrations causing ¥ small terminal Deficiencies due to loss usually give N pollen or slightly smaller grains
41205	Ygz C sh bz1 wx (38840 yg Xb)	from C sh bz wx
41211	bz2-m X v16 ac2 ms/ +; bz2-m (38996-102 x16 ms g X 38955-82)	tester; from bz2-m wx no dots
41213	Bl. Mwxican O B's su (33277 @)	from col su
41215	tr-Mrh sh Bt Pr/mrh bt pr; a-mrh X a1-mrh; Ax bt pr (41178-1 X 41185a)	all progeny were bm1; from colorless bt no dots
41219	a1-mrh; A2 bm bt (pr) mrh (411180 X sib)	from a-mrh bt
41231	th-Mrh (Bm) Bt Pr/mrh (bm) bt pr; a1-mrh X a1-mrh; A2 bm bt (pr) (41178-20X 41182 bm)	from Bt low dots Bt Pr see colored dots for Pr ms pr
41232	a1-mrh; tr Mrh Bm Bt Pr/mrh bm bt pr X a1-mrh; A2 dot (pr) (41178-1 X 41185a)	from a-mrh low dots Bt Pr
41234	a1-mrh; tr Mrh Bm Bt Pr/mrh bm bt pr X a1-mrh; A2 dot (pr) (41178-1 X 41185a)	from a-mrh low dots Bt (pr)
41235	K-m 10 R (r)/N10 r (sr?) X rg Sr2 (41165-4 X 41187-12)	from R seed
41247	N10 r sr/short km 10 R r Sr X k9-L yg C sh bz wx; DfK10(K) R - /N10 R Sr (41163-16 z B's gr X 41187-12	from R self or near self
41262	r w2 Sr2 N10/r + - DfK10(H) @ (39152-2 @ {xt})	selects for wx/ + tester (eliminate white seedlings + stricate plants)
41265	DfK10(H) r W2 - /Df K10 (C) R - - ; 1B X DfK10(H) r - / N10 R Sr; 1B (41194-14 sr X 41194c)	occasional crossovers btw Df(H) + Df(C) exchange marker genes; from R self + mottled
41267	no PMC so B's unknown genotype as above prob. X DfK10(H) r - / N10 R Sr; 1B (41194-21 pr X 41194c)	from R seed
41277	K10-I r/K10-I r (41097 X sib)	may seg Df K10(H) - instead of K10-I due to crossover in previous generation progeny = 10 Srz + 1 sr?? from y wx
41280	DfK10-II(Q) r - - - /N10(g) r + + sr X K10-II g R Sr2/N10 g r sr2 (41105 sr X 41106)	K10--II in this cross has been in same plant w K10-I + may have crossed over w K10-I from colore Wx
41281	DfK10-II(Q) r - - - /N10(g) r + + sr X K10-II g R Sr2/N10 g r sr2 (41105 sr X 41106)	seg golden (21G: 11g: 1 G sr); from R seed large
41282	DfK10-II(Q) r - - - /N10(g) r + + sr X K10-II g R Sr2/N10 g r sr2 (41105 sr X 41106)	progeny: 1G: 10g: (no sr) from R small seed
41284	DfK10-II(Q) r - - - /N10 g r + + sr X K10-II g R Sr/N10 g r sr (41105 sr X 41106A)	progeny seg golden large + small seeds on ear from colored small
41286	DfK10-II(Q) r - - - /N10 g r + + sr X K10-II g R Sr/N10 g r sr (41105-1 sr X 41106A)	from colorled small seeds
41295	a-mrh Sh/a1 sh2; mrh/mrh; dt/dt X a-mrh/a-mrh; Mrh/Mrh; tr Mrh/mrh ? (41024 X 41140A)	from a-mrh + high dots
41299	a-mrh Sh/a1 sh2; tr Mrh 37969/mrh X a1 sh2 mth dt (41136-2 X 41027)	tr Mrh 37939 not related to tr-Mrh 37962 on chr. 5; from a-mrh + low dots Pr
41302	a-mrh Sh/a1 sh2; tr Mrh 37969/mrh X a1 sh2 mth dt (41136-1 X 41027-3)	from a-mrh Sh + medium dots
41306	a-mrh Sh/a1 sh2; tr-Mrh/mrh X a1 sh2 (41000 X 41114)	now tr-Mrh one plant had A stripes in stalk + Tassel from a-mrh Shz + medium dots
41310	a-mrh Sh/a1 sh2; Mrh/mrh; tr-Mrh/mrh (tr-Mrh/mrh)? X a1 sh2 (41101D X 41114)	some kernels on ear w. very high dot number Sh2: 7:1 rates (dotted: no dots); from a-mrh Sh + high dots pr
41315	a-mrh Sh/a-mrh Sh; Mrh/mrh dt X a1 sh2 dt mrh (40840 X 40814)	tester; from a-mrh + no dots
41316	a1 sh2 mrh dt (40901-4 X 40879)	from a1 sh2
41323	bz2-m; ac v ms X bz2-m; Ac + ms8/ac v16 + ? (41058 ms X 41059A-1)	Ac2 in new positions on chr. 8 Ac-v = 20% (Ac in one dose gives no dots) from bz2-m no dots Wx + wx; = tr-Ac in new position on chr. 8 gives low dots in 2 doses; all plants were progeny-tested to determine genotype all involve transposed Ac2 to new position on chr 8 rareness of double chromosomes + closeness of v & ms make it difficult to determine order of 3 genes on chr 8
41326	bz2-m; ac v ms X bz2-m; Ac + ms8/ac v16 + ? (41059 ms X 41059A-7)	Ac-v=26% ; from bz2-m no dots; = tr-Ac in new position on chr. 8 gives low dots in 2 doses; all plants were progeny-tested to determine genotype all involve transposed Ac2 to new position on chr 8 rareness of double chromosomes + closeness of v & ms make it difficult to determine order of 3 genes on chr 8
41330	bz2-m; ac v ms X bz2-m; Ac + ms8/ac v16 + ? (41059 ms X 41059A-14)	Ac-v = 24%; from bz2-m no dots; = tr-Ac in new position on chr. 8 gives low dots in 2 doses; all plants were progeny-tested to determine genotype all involve transposed Ac2 to new position on chr 8 rareness of double chromosomes + closeness of v & ms make it difficult to determine order of 3 genes on chr 8
41334	bz2-m; ac v ms X bz2-m; Ac + ms8/ac v16 + ? (41058 ms X 41059A-22)	Ac-v = 24% from bz2-m no dots; = tr-Ac in new position on chr. 8 gives low dots in 2 doses; all plants were progeny-tested to determine genotype all involve transposed Ac2 to new position on chr 8 rareness of double chromosomes + closeness of v & ms make it difficult to determine order of 3 genes on chr 8
41335	bz2-m; c ms (Ac)/+ + (ac) X v ac ms/+; bz2-m (41052B N X 41057)	Ac in cupling w v ms but now transposed (17% v-Ac) not sure of order; from bz2 low dots; another tr-Ac case; all plants were progeny-tested to determine genotype all involve transposed Ac2 to new position on chr 8 rareness of double chromosomes + closeness of v & ms make it difficult to determine order of 3 genes on chr 8
41336	bz2-m; c ms (Ac)/+ + (ac) X v ac ms/+; bz2-m (41052B N X 41057)	from bz2 no dots; another tr-Ac case; all plants were progeny-tested to determine genotype all involve transposed Ac2 to new position on chr 8 rareness of double chromosomes + closeness of v & ms make it difficult to determine order of 3 genes on chr 8
41337	bz2-m; Ac - v ms /ac + + X bz2-m; v ac ms/+ (41053 N X 40962)	prob. order/ Ac-v = 24% from bz2-m low-medium dots; another tr-Ac case; all plants were progeny-tested to determine genotype all involve transposed Ac2 to new position on chr 8 rareness of double chromosomes + closeness of v & ms make it difficult to determine order of 3 genes on chr 8
41338	bz2-m; Ac - v ms /ac + + X bz2-m; v ac ms/+ (41053 N X 40962)	from bz2-m no dots; another tr-Ac case; all plants were progeny-tested to determine genotype all involve transposed Ac2 to new position on chr 8 rareness of double chromosomes + closeness of v & ms make it difficult to determine order of 3 genes on chr 8;
41339	bz2-m; v Ac ms/ + ac + X bz2-m; v ac ms/ + (41055N X 40962)	prob no trans positions but loss of 1 Ac from a homologue w1 Ac Ac v-Ac=1.5%; low dot kernel origin: from + Ac^Ac ms/v Ac^Ac^Ac +; from bz2-m low dots; low dot case
41340	bz2-m; v Ac ms/ + ac + X bz2-m; v ac ms/ + (41055N X 40962)	from bz2-m no dots wx; low dot case
41341	bz2-m v Ac ms/+ ac + ? X bz2-m; v ac ms/+ (41056N X 41057)	order uncertain origin also from tip-of-page compound; from bz2-m low dots; low dot case
41342	bz2-m v Ac ms/+ ac + ? X bz2-m; v ac ms/+ (41056N X 41057)	from bz2-m no dots; low dot case
41343	bz1 su X bz2-m; tr-Ac-820/ac (41175-1 X 41173A-1)	to Ac-820 from Ac2 - shows no linkage w1 genes on shr8 or w. bz2-m on chr 1; from Pr seends
41344	bz1 su X bz2-m X bz2-m; tr-Ac-820/ac (41175-2 lg X 41173B-2)	from Pr seeds
41345	bz2-m; tr-Ac-820/ac X c2 tester (41173B-3 X 41174)	from Pr seeds
41345A	bz2-m; tr-Ac-820/ac X c2 (41173B-2 X 41174)	from Pr seeds
41348	bz2-m; new Ac/ac; Wx/wx; Y/y S c2 Bz (41195-2 X 41174A)	new Ac not lined to wx1 y or chr 8 arose in vorss involving Dp9 phenotype = fine dots near germ; from col seed (Bz-2 C2); same Ac
41350	su Bz X bz2-m; new Ac/ac; Wx/wx; Y/y (41176A X 41200)	new Ac not lined to wx1 y or chr 8 arose in vorss involving Dp9 phenotype = fine dots near germ; same ac; from Pr Bz seeds
41351	+ Ac2^Ac2/v ac (ms); tr Ac-814; bz2-m X bz2-m; v ac ms8/+ (38950-2 gr N X 38955-58)	tr-Ac-814 has shown linkage w tr-Ac819 on chr 1 + tester w. c2 on chr 4 this is cross that originated tr Ac-814 from bz2 many dots; see Maydisc 38:151
41354	bz2-m tr-Ac-816/bz2-m ac X az bt Bz2 (41034ms X 41137)	tr-Ac-816 linked to bz2-m on chr 1 originally came from Ac2 on chr 8 from Bz2 seed
41360	Bz2 ac/bz2 tr Ac-816 X bz2-m ac (41169-5 X 41174)	from bz2-m low-medium dots pr
41362	bz2-m ac X Bz ac/bz2 tr Ac-816 (41170N X 41169-5)	gave some crossover plants of Bz ro Ac-816/bz2 ac genotypes
41366	bz2-m ac X Bz ac/bz2 tr Ac-816 (41170N X 41169-5)	41366 may be bz2 tr Ac-816 to Ac-816/bz2 ac; from bz2 w dots dear germ
41369	bz2-m; y Wx/wx new Ac/ac X bz2-m ac (41199A X 41171)	from bz2 w dots near germ; same as 41348 + 41350
41375	c2 A1 A2 C1 R M14 @ (Coop 84-45-4 @)	from c2 Y
41376	bz2-m v ac ms X bz2-m v ac ms/+ (38996-101 X 38955-82)	tester fro Ac; from bz2-m no dots
41377	bz2-m v ac ms X bz2-m v ac ms/+ (38996-102 X 38955-82)	from bz2-m no dots
41386	oy A1 A2 C1 C2 R (Coop X01B 89-2912-1 sib)	from R seed
41388	oy +/du; r A1 A2 C1 C2 (Coop X02E 81-1359-5 @)	from r seed
41389	K-m short R R(sr?)/N20 3 B's R Sr X oy/+ or oy R/R (41244-8t X 41263)	ear seg. self & mottled; from R self (some will be R-R Sr crorrovers)
41391	K-m 10 R r/ N10 r-g X oy bf2 R/R (41235Z X 41216)	from R self colored
41393	K-m 10 R r/ N10 r-g X oy R/R (41235B X 41216)	from R self
41395	K-m 10 R r/ N10 r-g X oy bf2 R/R ? (41235-20 X 41212)	from R self
41397	K-m-10 R r Sr/N10 r (sr?) X r-g Sr2	N10 is 41165-4 may carry w2; from R large
41398	K-m 10 R r/ N10 r-g X oy bf2 R/R ? (41235-20 X 41212)	from R small
41399	r W2 sr/r - - DfK10-II(M?) X g r-r sr (39164-8sr X 39148)	for sr tester; from Y + y seeds
41401	DfK10-II r - - /N10 g r W2 sr2 (=DfP) X g r-r sr prob N10 but could have Df(H)r - (89178-27 N sr X 39148)	Df(P) trasmits through male + female
41402	r r X g r sr2 (40708 X 40515) *	from r seeds; *40708 sib cross of Coop stock 83-820-3/821 Tris 10 X 23A)
41403	K-m short 3 B's R r(sr?)/N10 R; K-L9 yg C sh bz wx R Yg C Sh Bz Wx X r K10-I/r K10-I (or r DfK10) (41247-26 2nd ear X 41277)	from Wx seeds
41406	r g Oh43 bckgrd; Coop 86-2186-2 @ X r=r M14 bckgrd; [Coop 87-3753-3/3752] (40932-2 X 40931)	r tester; from r
41407	r-g Y/y; [Coop 4429-1/4420] X r-g M14 bckgrd; [coop 87-4424-4423] (40934-2 X 40931)	from r
41408	C sh bz wx (37970 sib)	from c sh bz wx
41409	+/yg; c sh wx X yg c sh wx (37972 gr X yg)	from Y seeds
41432	oy; +/dn; r A1 A2 C1 C2 (Coop X02E 81-1359-8 @)	from Y seeds
41433	a1-mrh; A2 mrh bt X a1-mrh; A2-mrh bt (41185 X 41180)	tester for tr-Mrh on chr 5; from a1-mrh bt mrh (no dots); all Mrh = tr-Mrh on chr 5
41449	a1-mrh; A2 mrh bt X a1-mrh; A2-mrh bt (41185 X 41180)	from a1-mrh bt no dots; all Mrh = tr-Mrh on chr 5
41450	a1-mrh; A2-mrh bm bt X a1-mrh; A2-mrh bm bt (41219 X 41215)	tester; from a-mrh bt no dots; all Mrh = tr-Mrh on chr 5
41451	a-mrh; A2 mrh bm bt (41215 sib)	from a-mrh bt no dots; all Mrh = tr-Mrh on chr 5
41456	a1-mrh; Mrh bm bt (pr)/mth bm bt (Pr) X a1-mrh; mrh Bm Bt (Pr)/mrh bm bt (pr) (41222 bm X 41224-2)	from Bt Pr low dots a1-mrh; all Mrh = tr-Mrh on chr 5
41458	a1-mrh; Mrh bm bt (pr)/mth bm bt (Pr) X a1-mrh; mrh Bm Bt (Pr)/mrh bm bt (pr) (41222 bm X 41224-2)	from Bt for low dots as a1-mrh; all Mrh = tr-Mrh on chr 5
41459	a1-mrh; Mrh bt (pr)/mrh bt (pr) X a-mrh; mrh Bm Bt (Pr)/mrh bm bt (pr) (41223-1 X 41224 Bm)	from a-mrh + dots, Mrh Bt Pr; all Mrh = tr-Mrh on chr 5
41464A	a1-mrh; Mrh Bt/mrh bt X a1-mrh; mrh bt (41232-11) X 41215)	from a-mrh + dots, M, Mrh Bt Pr; all Mrh = tr-Mrh on chr 5
41465	a1-mrh; Mrh Bm Bt/mrh bm bt X a1-mrh; mrh bm bt (41232-14 X 41219)	from a-mrh + dots, Mrh Bt (pr); all Mrh = tr-Mrh on chr 5
41470	Km-10 0 B's R r/N10 r Gr2 X r/g r sr2 (41397-15 X 41402)	from R pr
41471	A1-Shz/a1 shz; Mrh/mrh (mosaic plant w. A stripes) X a1-mrh Shz/a1 shz	new A1 from a1-mrh reversion; from A1 Sh2 Pr
41473	a1-mrh Sh/a1 sh2; Mrh/Mrh * X a1-mrh Sh/a1 sh; mrh (41291 X 41315)	*unexpected homozygosity - newly transformed Mrh?; from a1-mrh Shz + many dots
41474	a1-mrh Sh/a1 sh2; Mrh/Mrh * X a1-mrh Sh/a1 sh; mrh (41291 X 41315)	from a1-mrh Shz near self (very high dots)
41476	a1-mrh Sh/a1 sh2; Mrh/Mrh * X a1-mrh Sh/a1 sh; mrh (41291 X 41315)	(progeny tests show presence of Mrh) from a1 shz
41477	a1-mrh Sh/a1 shz; Mrh/mrh; Pr/pr X a1-mrh Sh/a1 sh2; Pr/pr; mrh (41303 X 41315)	may have tr-Mrh formed on sectored ear; from a1-mrh Sh Pr + medium to many dots
41481	a1 su pr y gl wx R (Weber 88-84 X 85)	from a1 y su
41482	a1-mrh Sh/a1 sh2; Mrh mrh (41806-5 X for pr)	from a1-mrh Sh2 no dots
41483A	a1-mrh Sh/a1 sh2; Mrh/mrh; tr-Mrh/mrh; tr-Mrh/mrh? X a1-mrh Sh/a1 sh2; Pr/pr mrh (41310 pr X 41315)	Sh2 seeds: 208 w. dots: 22 no dots; from a-mrh Shz no dots
41484	a1-mrh Sh2/a1 sh2; Mrh/mrh; tr-Mrh/mrh X a1-mrh Sh/a1 sh2; Pr/pr mrh (41310 pr X 41315)	Sh2 seeds: 259 w dots: 81 no dots; from colorless Sh2 no dots
41485	a1 sh2 (pr?) [tr-Mrh/mrh] X a-mrh Sh (pr)/a1 sh2; tr-Mrh/mrh (41067 X 41068-15)	Sh2 seeds: 123 w dots: 44 no dots; from a-m,rh Sh2 pr? w dots
41486	a1 sh2 (pr?) [tr-Mrh/mrh] X a-mrh Sh (pr)/a1 sh2; tr-Mrh/mrh (41067 X 41068-15)	from a-mrh Sh2 pr? w dots
41487	a1 sh2 (pr?) [tr-Mrh/mrh] X a-mrh Sh (pr)/a1 sh2; tr-Mrh/mrh (41067 X 41068-15)	from a-mrh Sh2 no dots
41489	K-m 10 R Oy r/N10 oy R X r oy (+/du) (41391-4 X 41388)	ear: 137R: 33v; from R self
41490	K-m 10 R Oy r/N10 oy R X r oy (+/du) (41391-4 X 41388)	from r
41493	K-m 10 R Oy r/N10 oy R X r oy (41395-2 X 41388-4)	ear: 243R: 102r; from r
41498	+ rg/ oy R X r oy (41392-5 X 41388-4)	ear: 107R: 102r; from r
41499	K-m short R+ r (sr)/ N10 + R Sr X r oy (41389-15 X 41388)	from R (Pr)
41500	N10 g nr-r w sr/ DF(M) G r-g - - Df (M) X K-m10 R gl r-r w1 Gl/N10 G n-g W Su (41399 sr X 41397-10)	Df(M) low if any male transmission; from R self
41501	N10 g nr-r w sr/ DF(M) G r-g - - Df (M) X K-m10 R g? r-r w2 Sl/N10 G n-g W Su (41399 sr X 41397-10)	from R self or near selfr
41502	K10-I/r K10-I; y wx (41097 X sib)	DfK10 may seg = sr phenotype; from rt g wx
41503	R + r/oy R X oy (R/R) (41395-8 X 41386-3)	ear seg self: mottled: scarred; from R self
41509	(r-g) w2 + Sr2/(r-r) + l13 Sr2 (40345 @ #4)	ear eg large non opaque: small opaque; from r large non opaque
41514	W22 r-g X r-g (40929 X 40934)	from r
41515	DfK10-II r-f - - /N10-g r-r + sr2 X R-g + sr2/r-g Wx + (40146A sr X 40127-5 gr)	DfK10-II(0); from R self?
41522	r W2 sr/(r-g) - - DfK10-II(M) X g r-r sr2 (39164-8 r X 39148)	from r
41528	K-m short 2 B's R R/r K10-I X r-g r-g (41403-8 X 41407)	ear 117 R: 55 r; from R seeds
41530	K-m short R r/K10-I r (41403-11 X 41407)	ear 52 R: 83 r; from R seeds
41532	K-m 10 R-g g? r-r w2 Sr/N10 G r-g + Sr X g r-r pr/G r-g Df(M)? (41397-10 X 41399 sr)	ear seg R:r and large v small; from R self large
41534	K-m 10 R-g g? r-r w2 Sr/N10 G r-g + Sr X g r-r pr/G r-g Df(M)? (41397-10 X 41399 sr)	from R very small
41537	K-m 10 R-g g? r-r w2 Sr/N10 G r-g + Sr X g r-r pr/G r-g Df(M)? (41397-10 X 41399 sr)	from R very small
41537A	DfK10(F) r-r - - /DfK10(H) r-r W2- X DfK10(F) R-g - - /DfK10(H) R-g W2 - (37650-75 sr X 37649-14 sr)	Df(F) gives reduced male transmission progeny seg with seedlings from R seed
41537B	DfK10(F) r-r - - /DfK10(H) r-r W2 - X DfK10(H) R W2 - /DfK10(F) r - - (37653-18 sr X 37655-11 t sr)	ear seg R: R spotted (w2):r from r seeds
41553	k-m 10 R r/N10 r X r K10-I (41235 X 41277)	ear seg R: R spotted (w2): r; from r seeds
41563	k-m 10 R r/N10 r X r K10-I (41235 X 41277)	from r wx (Y + y)
41567C	bz2-m; ac2 X bz2-m; v16 ac2 ms/+ (38996 v16 ms8 X 38955-82)	tester; from bz no dots
41583	Bz2 tr Ac-816/bz2 ac (41411-2 @)	Bz2-tr Ac-816 shows 16% (coupling) 27% (repulsion) from Bz2; N = not ms
41583N	Bz2 tr Ac-816/bz2 ac (41411-2 @)	41583 had ms 8 + N plants; N = not ms
41584	bz2 tr Ac-816 tr Ac-816/bz2 ac (41412-2 gh X 41407)	41412-2 as male gene 44 dots (some high dot) 35 no dots; from Bz2 seed
41585	bz2 tr Ac-816^tr^Ac-816/bz2 ac X r r Bz2 (41412 ms X 41407)	from Bz2 pr seed
41593	Bz ac (from c2 bckgrd)/bz2 tr Ac-819 X bz2-m v ac (+)/ + ac (+) (41417A X 41385)	approx 20% crossing over bz-Ac; from light Bz (hetero cs?)
41594	Bz ac from (NK 199 bckgrd)/bz2 tr Ac-819 X bz2 ac (41415A X 41385)	from Bz selg & mottled
41595	bz2-m; v16 ac ms8 X bz2-m; N16 ac ms/+ (38996-102 X 38955-82)	tester; from self & mottled
41597	bz2-m; Ac-816 Ac-819/ac ? X bz2-m; Ac-816 Ac-819/ac ? (41044 X 41041-2)	seg ms; from bz many dots
41597N	bz2-m; Ac-816 Ac-819/ac ? X bz2-m; Ac-816 Ac-819/ac ? (41044 X 41041-2); N=normal segregant (not ms)
41606	tr Ac V Ms/ ac v ms X ac v16 ms/+ (41330-25 shriv anthers X 41376)	tr Ac = tr Ac 40199 weakened Ms allela = Ms gives ex serted but shrivelled anthers; from bz2 low dots

	1978 CYTOLOGICAL STOCKS, ENTRIES # 776 THRU # 822
		THESE ARE LATE MATURING STOCKS, ALL ARE FROM Y SEEDS UNLESS SPECIFIED, ie KYS BACKGROUND; see DT Morgan Jr. PhD thesis Columbia Univ Botany Dept (1943-47 ?) for info on Inversions 2a, 2b, 4a, and 5a
776	Inv 1a / Inv 1a ? (32529 sib)	Inversion 1a Clark, breaks 15.3 - 1L.5
778	Inv 2a / Inv 2a (32532 sib)	from EG Anderson, pericentric 2S.7 - 2L.8
779	Inv 2a / Inv 2a X KYS (32532 X 32532)
780	Inv 2b / Inv 2b X KYS (32534 sib)	Rhoades x-ray induced 2S.5 - 2L.15 pericentric; 2S breakpoing .38 units proximal to gl2 and 2L breakpoint .17 units proximal to B
782	Inv 3a / Inv 3a (32536 sib)	Rhoades found in Tu stock of Mangelsdorf; paracentric 3L.4 - 3L.95; proximal breakpoint is jut proximal to chromomere in 3L; (see Rhoades and Dempsey Am J Bot 1953)
784	Inv 3b / Inv 3b (32538 sib)	Anderson 6784-4, breakpoints 3L.21 - .78; (see Rhoades and Dempsey Genetics 1966 and MNL for placement of genes)
785	Inv 3b / Inv 3b X KYS (32538 X 32525)
786	Inv 3c / Inv 3c; lg2 a1 (32540-10 X sib)	Doyle 162-23 ¥ from Inv 3 Morris paracentric in 3L; breakpoints close to centromere & tip, see Rh and Dempsey Genetics 1966 and MNL
787	Inv 3c / Inv 3c X KYS (32540 X 32525)
788	Inv 4a / Inv 4a (32542 sib)	Mc Clintock x-ray induced paracentric 4L.3-4L near end; proximal breakpoint is 13 units distal to gl3 (see DT Morgan thesis noted at beginning of this section)
789	Inv 4a / Inv 4a X KYS (32542 X 32525)
790	Inv 5a / Inv 5a (32544 -3 sib)	Mc Clintock x-ray induced pericentric 5S close to centromere - near brown midrib; -5L just proximal to knob (but very close), distal to pr
791	Inv 5a / Inv 5a X KYS (32544 -10 X 32525)	inverted chromosome has no or very small knob in 5L
792	Inv 7a / Inv 7a (32546 sib)	Anderson 5262-4 paracentric .15 - .74 7L, we found breakpoint close to centromere and rear tip
793	Inv 7a / Inv 7a X KYS (32546 X 32525)	see Rhoades chapter 40 in Walden Maize Breeding and Genetics 1978; for neocentromeres on acentric fragements of In7a and In3a
796	T1-6 / T1-6 (32550 )@	produced by DT Morgan in KYS, probably by x-rays, breakpoint in 1L and 9L but not exactly known
797	T1-6 / T1-6 X KYS (32550-16 X 32525 )
798	T5-6c / T5-6c X KYS (32552 X 32574)	McClintock 6S near centromere - 5L distal to knob; see MNL 30:49, also see McClintock; CSHSQB date ?
799	T5-6c / T5-6c X KYS (32552 X sib)	translocated 65 carries y; 799 from y seed
800	T 4-6 Sat / T 4-6 Sat X KYS (32554 X 32555)	DT Morgan 262 probably produced in KYS by x-rays; breakpoints 6S satellite -4L.3
801	normal KYS; (Saraiva 438-18 X sib)
802	T 4-6 sat / T 4-6 sat X KYS (32554 -14 X sib)
803	T1-9a / T1-9a (32556-8 X sib)	breakpoints 1S near centromere -9L; D Schwartz 566 (probably obtained from Anderson ?)
804	T1-9a / T1-9a X KYS (32556 X 32525)
806	T 2-9b wx1/N X KYS (32558-4 T 2-9b wx1/N X KYS (32558-4 ¥ X 32574)	Coop 59-990-3 @ Y wx1 T, Anderson ?
807	T 3-9c / T 3-9c (32559 X sib)	D Scwartz 563, from Anderson ?; breakpoints 3L and 9L
808	T 3-9c wx1 / T 3-9c wx1 X KYS (32559-2 X 32525)	T 3-9c stock shows poor spreading; knobs are very sticky
811	normal KYS (Saraiva 438-10 X sib)
812	T 5-9c / N; (In 1a / N) ? (32563-12 ¥ X 32525)	Coop 59-1005-1 @ wx1 T5-9c; breaks 5L and 9L
813	T 6-9b (4778) / N X KYS (32565-7 ¥ X 32525)	Coop 61-W23/L317 / 639-3; 6S.8 - 9L.3; break in satellite
814	T 6-9b / N ; seg K10 X KYS (32566-3 ¥ X 32574)	Coop 54-967-9 @; y wx1 T / Y Wx1 (T); breaks 6L.09 - 9S.37; See Patterson MNL 32; Dempsey MNL 33, 34, 35, 36
815	T 8-9a / T 8-9a X KYS (32567 X 32574)	D Scwartz 558 (Anderson ?); breaks 8L.4 - 9L.6
816	T 8-9a / T 8-9a (32567 X sib)
817	T 4-10b / T 4-10b X KYS (32569-6 X 32574)	D Schwartz 567 (Anderson ?) breaks 4L.3 - 10L.5 approx, excellent cytology and spread
818	T 4-10b / T 4-10b (32569 sib)
820	normal KYS (Saraiva 438-16 sib)
821	normal KYS (Saraiva 104 X sib)
822	normal KYS (Saraiva 223 X sib)

	1986 Cytological Stocks

39090	normal KYS (35614 sib)
39091	Inv 1a / Inv 1a ? (Saraiva 776-11 X 776-10)
39092	Inv 1a / N ? X KYS (Saraiva 775-4 X 801)
39093	Inv 2a / Inv 2a (Saraiva 778-1 X 778-2)
39095	Inv 2b / Inv 2b (Saraiva 780-6 X 780-10)
39097	Inv 3a / Inv 3a (Saraiva 782-4 X 782-1)
39099	Inv 3b / Inv 3b (Saraiva 784-6 X 784-3)
39103	Inv 4a / Inv 4a (Saraiva 788-5 X 788-10)
39105	Inv 5a / Inv 5a (Saraiva 790-7 X 790-8)
39106	Inv 5a / Inv 5a X KYS (Saraiva 790-16 X 811)
39107	Inv 7a / Inv 7a (Saraiva 792-2 X 792-8)
39108	Inv 7a / Inv 7a X KYS (Saraiva 792-1 X 811)
39109	Inv 9a / N (Saraiva 794-1 @ ¥)	Li inversions from Anderson 50-1412-6 / 1041-397; breakpoints 9S.7 - 9L.9; Inv probably carries c Sh Wx; see MNL 1950 and 1957
39111	T1-6 / T1-6 X KYS (Saraiva 795-5 X 811)
39112	T1-9a / T1-9a (Saraiva 803-6 X 803-7)
39114	T5-6c / T5-6c (Saraiva 799-17 sib)	y seed
39119	T3-9 c wx / T3-9 c wx (Saraiva 807-9 X 807-5)
39121	T4-6 sat / T4-6 sat (Saraiva 802-3 X 802-4)
39123	T4-10b / T4-10b (Saraiva 818-2 X 818-9)
39125	T6-9b / N; seg K10? X KYS (Saraiva 814-2 ¥ X 822)
39126	T4-9 / T4-9 (Saraiva 809-2 X 809-1)	DT Morgan 21-35 probably produced in KYS by x-rays; breakpoints 4L.4 - 9L.6 approx.; see photo p. 172 MMR chapter Corn and Corn Improvement
39128	T8-9a / T8-9a (Saraiva 816-4 X 816-3)
39130	T a74 / N X KYS (Saraiva 819-7 ¥ X 820)	probably Anderson a-74 (our 9012 pedigree); 16-609-3 / 16-644-17E
39131	normal KYS (35614 sib)

About MGCSC

Full-time staff

Seasonal or part-time help

Our collection

Request stocks or more information

Rhoades' Stocks