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Chromosome 10, Region 3 (bin 10.03)

This page summarizes the data available describing features found in bin 10.03 in maize. What is a bin, and why is it important?
This region is highlighted in red on the image of maize chromosomes to the right.
You can click on regions of that image to move to other portions of the maize genome.

Genome Browser Links for 10.03
Genes in Bin 10.03
Other Loci in Bin 10.03
Bin 10.03 High-Density Map Regions
Sequences in Bin 10.03
EST Contigs in Bin 10.03
SSRs in Bin 10.03
BACs in Bin 10.03
Mapped loci w/ accessions in Bin 10.03
Map Locations of Sequences in Bin 10.03


Bin Viewer pages




Genome Browser pages


Genome Browser Links for 10.03

   B73 RefGen_v2 sequence   
   B73 RefGen_v1 sequence   
BAC-based assembly
    

Based on MaizeSequence.org B73 RefGen_v2 sequence

(Click on image to go to the Genome Browser)





Genes in Bin 10.03

Here are the 46 genes found in this chromosomal region.

abp4 auxin binding protein homolog4 ad*-N377B adherentN377B
ane3 androgenic embryo3 chs1 chitin synthase homolog1
cpps3 copalyl diphosphate synthase3 csu625
dcd1 discordia1 dek14 defective kernel14
dnp1 diphosphonucleotide phosphatase1 du1 dull endosperm1
emb*-8543 embryo specific-8543 eoh1 E. coli origin of replication homolog1
gcsh1 glycine cleavage system protein H1 gdh2 glutamic dehydrogenase2
gl21 glossy21 glu1 beta glucosidase1
hcf316 high chlorophyll fluorescence316 hcf47 high chlorophyll fluorescence47
l19 luteus19 les12 lesion12
les16 lesion16 les3 lesion3
les6 lesion6 mac1 multiple archesporial cells1
ms11 male sterile11 ms24 male sterile24
ms29 male sterile29 ms47 male sterile47
ms49 male sterile49 nl1 narrow leaf1
og1 old gold stripe1 orp2 orange pericarp2
pao1 polyamine oxidase1 php1 chloroplast phosphoprotein1
psl9 position shift locus9 rgh*-N799A roughN799A
rlc1 rindless culm1 rps3 ribosomal protein S3
tps10 terpene synthase10 tps11 terpene synthase11
tps23 terpene synthase23 tps4 terpene synthase4
tps5 terpene synthase5 tps6 terpene synthase6
trm1 thioredoxin M1 zmm1 Zea mays MADS1  

Other Loci in Bin 10.03

Here are the 244 additional loci found in this chromosomal region.

cent10 centromere chromosome 10 (Centromere) salt1 SalT homolog1 (Gene candidate)
Ac8180-10 transposed Activator sequence8180 (Point) mu1002591 (Point)
mu1004600 (Point) mu1004655 (Point)
mu1004775 (Point) mu1005041 (Point)
mu1005656 (Point) mu1005833 (Point)
mu1007069 (Point) mu1007080 (Point)
mu1007181 (Point) mu1007200 (Point)
mu1007341 (Point) mu1007392 (Point)
mu1007586 (Point) mu1007651 (Point)
mu1007782 (Point) mu1007877 (Point)
mu1007984 (Point) mu1008049 (Point)
mu1008123 (Point) mu1008134 (Point)
mu1008164 (Point) mu1008215 (Point)
mu1008301 (Point) mu1008315 (Point)
mu1008352 (Point) mu1008416 (Point)
mu1008449 (Point) mu1008553 (Point)
mu1008592 (Point) mu1008615 (Point)
mu1008775 (Point) mu1008963 (Point)
mu1008980 (Point) mu1009001 (Point)
mu1009175 (Point) mu1009281 (Point)
mu1009528 (Point) mu1009705 (Point)
mu1009860 (Point) mu1009934 (Point)
mu1010707 (Point) T7-10(4422)(10) (Point)
TB-10Sc(10) (Point) agrr104 (Probed Site)
agrr18 (Probed Site) agrr216b (Probed Site)
agrr232 (Probed Site) agrr255a (Probed Site)
agrr295 (Probed Site) agrr57 (Probed Site)
asg42 (Probed Site) asg76a (Probed Site)
bcd1072b(hsp70) (Probed Site) bcd147(gbp) (Probed Site)
bcd348a (Probed Site) bcd98c (Probed Site)
bnl5.09b (Probed Site) bnl8.45d (Probed Site)
bnlcmt6.06b (Probed Site) bnlg1037 (Probed Site)
bnlg1079 (Probed Site) bnlg1547 (Probed Site)
bnlg1655 (Probed Site) bnlg1712 (Probed Site)
bnlg1716 (Probed Site) bnlg1762a (Probed Site)
bnlg210 (Probed Site) bnlg640 (Probed Site)
cdo456a (Probed Site) cdo504 (Probed Site)
cdo551b (Probed Site) cdo783a (Probed Site)
chs5008 (Probed Site) csu1050 (Probed Site)
csu110f (Probed Site) csu213b (Probed Site)
csu234b(gbp) (Probed Site) csu237a(psaN) (Probed Site)
csu745c(rpPo) (Probed Site) csu969b(fgp) (Probed Site)
dpg3 (Probed Site) dpg5 (Probed Site)
E32M49-162-Co159 (Probed Site) E32M50-130.7-B73 (Probed Site)
E32M50-130.7-D32 (Probed Site) E32M60-192.3-D145 (Probed Site)
E32M60-192.3-Mo17 (Probed Site) E32M60-305-Tx303 (Probed Site)
E32M60-306.6-D145 (Probed Site) E32M60-306.6-Mo17 (Probed Site)
E33M54-91.4-B73 (Probed Site) E33M54-91.4-D145 (Probed Site)
E33M62-281.0-B73 (Probed Site) E33M62-281.0-D32 (Probed Site)
E35M50-170.7-B73 (Probed Site) E35M50-170.7-D32 (Probed Site)
E35M59-162.8-B73 (Probed Site) E35M59-162.8-D32 (Probed Site)
E39M50-121.7-D145 (Probed Site) E39M50-121.7-Mo17 (Probed Site)
E39M59-91.3-D145 (Probed Site) E39M59-91.3-Mo17 (Probed Site)
E39M60-271.8-B73 (Probed Site) E39M60-271.8-D32 (Probed Site)
E39M61-197.6-D145 (Probed Site) E39M61-197.6-Mo17 (Probed Site)
E39M62-101.8-D32 (Probed Site) E39M62-101.8-Mo17 (Probed Site)
E45M48-408.2-D145 (Probed Site) E45M48-408.2-Mo17 (Probed Site)
E45M60-376.4-D145 (Probed Site) E45M60-376.4-Mo17 (Probed Site)
hlm2 helene laparra marker2 (Probed Site) ias13c (Probed Site)
jpsb527c (Probed Site) lim2 (Probed Site)
mHbrBA309-Mo17 (Probed Site) mHbrBC158-B73 (Probed Site)
mHbrBT96-B73 (Probed Site) mHbrMA330-B73 (Probed Site)
mHbrMC413-Mo17 (Probed Site) mHbrMG128-B73 (Probed Site)
mHbrMG202-Mo17 (Probed Site) mmp63 (Probed Site)
mP12M50-59.0-B73 (Probed Site) mP12M50-59.0-D32 (Probed Site)
mP12M62-194.9-B73 (Probed Site) mP12M62-194.9-D32 (Probed Site)
mP12M62-417.3-D32 (Probed Site) mP12M62-417.3-Mo17 (Probed Site)
mP18M59-107.6-D145 (Probed Site) mP18M59-107.6-Mo17 (Probed Site)
mpik20b (Probed Site) mpik41c(mem1) (Probed Site)
mps2.03 (Probed Site) ncsu2 (Probed Site)
npi(C6F-03) (Probed Site) npi(G5A-06) (Probed Site)
npi105a (Probed Site) npi216b (Probed Site)
npi223b (Probed Site) npi250a (Probed Site)
npi253f (Probed Site) npi312 (Probed Site)
npi327b (Probed Site) npi378 (Probed Site)
npi417b (Probed Site) npi445a (Probed Site)
npi597b (Probed Site) npi602 (Probed Site)
npi85 (Probed Site) npi92 (Probed Site)
npi98c (Probed Site) oph12-780 (Probed Site)
opw02-530 (Probed Site) opw06-680 (Probed Site)
opy10-1100 (Probed Site) ov23 (Probed Site)
P12M48-203-A7 (Probed Site) P12M49-185.5-B73 (Probed Site)
P12M49-185.5-D32 (Probed Site) P12M59-262-A7 (Probed Site)
P12M61-185.6-D145 (Probed Site) P12M61-185.6-Mo17 (Probed Site)
P12M62-161.5-D145 (Probed Site) P12M62-161.5-Mo17 (Probed Site)
P12M62-258-A7 (Probed Site) P13M47-509.7-D145 (Probed Site)
P13M47-509.7-Mo17 (Probed Site) P13M48-395.0-B73 (Probed Site)
P13M48-395.0-D32 (Probed Site) P13M50-213-A7 (Probed Site)
P13M60-145.3-D145 (Probed Site) P13M60-145.3-Mo17 (Probed Site)
P18M48-175.8-D145 (Probed Site) P18M48-175.8-Mo17 (Probed Site)
P18M59-173.6-D145 (Probed Site) P18M59-173.6-Mo17 (Probed Site)
P18M62-130.5-D145 (Probed Site) P18M62-130.5-Mo17 (Probed Site)
phi054 (Probed Site) php06005 (Probed Site)
php10033 (Probed Site) php20646 (Probed Site)
php891 (Probed Site) psr690 (Probed Site)
rgpc1122d(rpL15) (Probed Site) rgpc496c(adh) (Probed Site)
rgpr440c(gap) (Probed Site) rz556a (Probed Site)
uaz100(prl) (Probed Site) uaz116 (Probed Site)
uaz117b (Probed Site) uaz153 (Probed Site)
uaz17c (Probed Site) uaz24a (Probed Site)
uaz97 (Probed Site) ucsd72k (Probed Site)
ucsd72m (Probed Site) ufg30a (Probed Site)
ufg59 (Probed Site) umc(orp2) orange pericarp 2 (Probed Site)
umc1113 (Probed Site) umc1239 (Probed Site)
umc130 (Probed Site) umc1336 (Probed Site)
umc1345 (Probed Site) umc1367 (Probed Site)
umc1381 (Probed Site) umc155 (Probed Site)
umc1739 (Probed Site) umc1785 (Probed Site)
umc1863 (Probed Site) umc1866 (Probed Site)
umc18b(psaN) (Probed Site) umc1938 (Probed Site)
umc1962 (Probed Site) umc2017 (Probed Site)
umc2067 (Probed Site) umc2180 (Probed Site)
umc2348 (Probed Site) umc2349 (Probed Site)
hrml1 hypersensitive defense response-modulating locus 1 (QTL) qczm11 QTL response to Cercospora zeae-maydis 11 (QTL)
qdpoll18 QTL days to pollen 18 (QTL) qdpoll23 QTL days to pollen 23 (QTL)
qdsilk7 QTL days to silk 7 (QTL) qearc10 QTL ear circumference 10 (QTL)
qearc12 QTL ear circumference 12 (QTL) qearc6 QTL ear circumference 6 (QTL)
qearc7 QTL ear circumference 7 (QTL) qearht10 QTL ear height 10 (QTL)
qearht4 QTL ear height 4 (QTL) qearl10 QTL ear length 10 (QTL)
qgrwt25 QTL grain weight 25 (QTL) qplht127 QTL plant height 127 (QTL)
qplht13 QTL plant height 13 (QTL) qplht40 QTL plant height 40 (QTL)
qplht45 QTL plant height 45 (QTL) qtest2 QTL test weight 2 (QTL)  

High-Density Maps Focusing on Bin 10.03

Here is this region expressed on four high-density maps.

UMC 98 10

50.7csu625
50.7umc130
54.7mpik41c(mem1)
54.7npi105a
56.8csu234b(gbp)
56.8csu237a(psaN)
56.8gcsh1 glycine cleavage system protein H1
56.8umc18b(psaN)
57.9csu1050
57.9csu745c(rpPo)
57.9glu1 beta glucosidase1
57.9php06005
58cent10 centromere chromosome 10
58.3rgpc1122d(rpL15)
58.4rgpr440c(gap)
59asg76a
59.3eoh1 E. coli origin of replication homolog1
59.3rgpc496c(adh)
59.7csu213b
59.9php20646
60.4bcd147(gbp)
61agrr62a
61csu599b
61orp2 orange pericarp2
61umc243a
61.9csu969b(fgp)

BNL 96 10

47dpg3
47npi250a
47umc130
50.2umc18b(psaN)
50.7npi105a
50.7npi417b
51.2cent10 centromere chromosome 10
51.7ias13c
51.7mpik20b
51.7npi327b
51.7npi597b
51.7npi98c
51.7ov23
51.7php06005
51.7php1 chloroplast phosphoprotein1
51.7uaz153
51.7umc(orp2) orange pericarp 2
54bcd98c
54chs5008
54dpg5
54glu1 beta glucosidase1
54uaz116
54uaz97
54ucsd72k
54ucsd72m
54zmm1 Zea mays MADS1
55.3npi445a
55.3uaz100(prl)
55.3uaz24a
57.1bnlg640
57.1umc155
58.9ncsu2
58.9uaz117b

IBM2 2004 Neighbors 10

145.93uaz153
146.31dpg3
152.53ucsd72k
152.53ucsd72m
160npi250a
160umc130
160umc1863
160.4csu625
160.64ov23
161.36bnlg1547
161.44uaz24a
161.76bnlg1085c
162.29ias13c
163.2mpik41c(mem1)
163.2npi105a
163.2npi417b
163.2uaz97
164.1umc18b(psaN)
168.2csu234b(gbp)
168.2csu237a(psaN)
168.2gcsh1 glycine cleavage system protein H1
172.93AY105872
173.5lim2
176.43dpg5
177.5bcd1072b(hsp70)
178.6csu1050
178.6csu745c(rpPo)
178.6glu1 beta glucosidase1
178.6php06005
178.88bnlg1762a
178.88npi327b
178.88npi597b
178.88npi98c
178.88php1 chloroplast phosphoprotein1
178.88umc(orp2) orange pericarp 2
178.93cent10 centromere chromosome 10
179.9rgpc1122d(rpL15)
180.09umc1866
180.23rgpr440c(gap)
180.7umc1785
180.7umc1962
182.18asg76a
182.95zmm1 Zea mays MADS1
183.15eoh1 E. coli origin of replication homolog1
183.15rgpc496c(adh)
183.4bnlg210
183.8umc1367
184.42bnlg1037
184.42bnlg1716
184.43chs5008
184.45csu213b
184.47bcd98c
184.47bnlg2216
184.7uaz116
185.1php20646
185.58chr109a chromatin complex subunit A
187umc1381
187.01sdg108b
188.8ufg30a
191.2AY110411
193.6AY105746
194.5umc2067
195.4pao1 polyamine oxidase1
195.43umc1938
196.4bcd147(gbp)
197.9jpsb527c
199.5umc1345
200.5AY110248
203ufg59
203.67orp2 orange pericarp2
203.67umc243a
204.8mmp63
208.5rps3 ribosomal protein S3
213.1bnlg1079
213.3umc1239
215.8psr690
217.2npi445a
217.8ane3 androgenic embryo3
217.8bnlg1712
220.1AY112073
220.9hlm2 helene laparra marker2
222.89npi602
225.11mpik20b
225.7umc155
225.71bnlg640
227.4AY111178
227.89nac1 NaCl stress protein1
227.9csu276
227.9umc2349
228bnlg1655
228umc1739
228.3umc1336
228.3umc2180
230.74ncsu2
234.3csu969b(fgp)
234.72fie2 fertilization independent endosperm2
234.72gpm13
242.3agrr62a
242.3csu599b
242.79uaz100(prl)
243.61uaz117b

Genetic 2005 10

28 +/- 28dek14 defective kernel14
28 +/- 28gl21 glossy21
28 +/- 28hcf316 high chlorophyll fluorescence316
28 +/- 28hcf47 high chlorophyll fluorescence47
29 +/- 29les12 lesion12
29 +/- 29les6 lesion6
43 +/- 10l19 luteus19
47 +/- 10les16 lesion16
47 +/- 12les3 lesion3
47 +/- 10rlc1 rindless culm1
47 +/- 10sr3 striate leaves3
47 +/- 3y9 pale yellow9
50.7csu625
50.7umc130
51 +/- 5og1 old gold stripe1
54.7mpik41c(mem1)
54.7npi105a
55 +/- 5TB-10Sc(10)
56.8csu234b(gbp)
56.8csu237a(psaN)
56.8gcsh1 glycine cleavage system protein H1
56.8umc18b(psaN)
57.9csu1050
57.9csu745c(rpPo)
57.9glu1 beta glucosidase1
57.9php06005
58 +/- 1cent10 centromere chromosome 10
58 +/- 12gdh2 glutamic dehydrogenase2
58 +/- 1php1 chloroplast phosphoprotein1
58.3rgpc1122d(rpL15)
58.4rgpr440c(gap)
59asg76a
59 +/- 1TB-10L18(10)
59.3eoh1 E. coli origin of replication homolog1
59.3rgpc496c(adh)
59.7csu213b
59.9php20646
60 +/- 2ms11 male sterile11
60.4bcd147(gbp)
61agrr62a
61csu599b
61orp2 orange pericarp2
61 +/- 2sad1 shikimate dehydrogenase1
61 +/- 1TB-10L19(10)
61umc243a
61.5zn1 zebra necrotic1
61.8TB-10L26(10)
61.9csu969b(fgp)
62du1 dull endosperm1
63nac1 NaCl stress protein1
63 +/- 5TB-10L17(10)
64.2csu276
65 +/- 4TB-10L16(10)
66 +/- 5TB-10L4(10)

Accession #s in Bin 10.03

Here are accession numbers of the 486 sequences that have been verified to be in this chromosomal region. Download the DNA sequences in FASTA format.

AC189779 AC193460 AC194103 AC194330 AC203332
AC203308 AC199174 AC198747 AC199346 AC199406
AC196991 AC198511 AC209084 AY112073 AY928078
AY928079 AY555143 BV128333 BV151305 BV153069
BV708119 DQ059322 EU960339 G68026 FJ911417
FJ909371 FJ910531 FJ909177 FJ909248 U44087
L08426 L40957 AI621535 AI586579 AI673968
AI881397 AI834636 AW067592 AW053162 AW331056
AW055590 AW400194 AW438140 AW453127 AW927521
BE225164 T14760 BF728611 CC145759 CC601008
CC464571 CC755058 CC756638 CC757776 CC747707
CC753813 CC786947 CC788101 CC810527 AC188966
AC190551 AC195227 AC202000 AC205848 AC198699
AC199910 AC198929 AC198141 AJ011558 AY111178
AY107888 AY110248 AY110586 AY518310 AY518312
BV128335 BV128337 BV151309 BV153070 BV153071
BV153073 BV153075 BV151314 BV151315 BV708086
BV708087 BV708088 BV708094 BV708103 BV708105
EU728679 FJ910431 FJ910440 G10776 G10777
FJ910506 FJ910720 FJ910318 FJ910340 FJ911305
Y08024 U33816 AI783055 AI932183 AW120140
AW146795 AW036845 AW331054 AW054214 BE475680
T12722 T14785 T15330 T18794 BE056221
BG266610 BE640466 AI491333 CC741933 CC755563
CC758367 CC810763 CC835788 AC188829 AC190713
AC191320 AC193404 AC193656 AC203357 AC202975
AC196290 AY105371 AY103756 AJ307880 AY103889
AC231437 AC226224 AY111987 AY195849 AY106373
AY518311 BT036679 BV128343 BV153064 BV151316
BV708093 BV708098 BV708104 EU259634 EU259636
EU259637 FJ909558 FJ910463 FJ909735 FJ910602
FJ910641 FJ469780 G10815 M76685 U44773
L46398 AI649476 AI692084 AI978056 AI947278
AW065317 AW120201 AW053074 AW018114 AW352515
AW282163 AW289141 AW324642 AW289022 BE344636
T14696 BE123254 BG265599 BE640616 CC448127
CC464507 CC737602 CC757775 CC753663 CC829453
CC786948 CC786952 CG391241 AC147506 AC177873
AC187791 AC189063 AC203405 AC199491 AC199333
AC199628 AC196800 AC199443 AC213596 AJ002204
AY105724 AF023159 AY109328 AY110411 AY518315
BT040791 BV128336 BV128341 BV151308 BV153066
BV153068 BV708085 BV708095 BV708097 BV708100
BV708101 EU954849 EU965951 FJ910927 AI586605
AI691670 AI857168 AI967238 AI944334 AI999984
AW090839 AW119960 AW433480 T18813 BE761538
T23346 BG316573 AB045770 BH140104 AZ916381
BH418227 CC148203 CC145937 CC176503 CC196739
CC738318 CC747708 CC749113 CC751477 CC753664
CC761015 CC830820 CC832425 CC790417 AC195396
AC205135 AC200222 AC207557 AC210241 AY103723
AJ011560 AF288075 AY111401 AY150643 AY195848
AY110525 AY518313 AY518314 BV128329 BV151311
BV708090 BV708091 EU960082 FJ911173 FJ911249
FJ910314 FJ910372 AA054805 U25157 S66813
X81199 AI622134 AI619140 AI854917 AI739770
AI783246 AI948389 AW076407 AW171889 AW202493
AW352551 AW566274 T12719 BE186840 BF729523
CC146954 CC173333 CC196688 CC737601 CC737643
CC756639 CC759643 CC810448 CC827049 CC787780
CC789405 AC189096 AC190830 AC191550 AC194028
AC194602 AC203345 AC199933 AC200541 AC197428
AC212749 AC214517 AC206164 AC206269 AY104970
AY103818 AY105872 AY061965 AY104609 AY150644
AY109625 AY108675 AY647253 AY560578 BV128331
BV128342 BV151306 BV151307 BV151310 BV153074
BV708120 EU328271 EU716166 FJ910207 G68029
FJ909456 FJ909466 FJ910624 FJ909206 FJ908896
JN247438 Y08023 X74217 AI668418 AI891373
AI891254 AW065388 AW017963 AW400027 BE238772
T14695 T18816 BE123400 BE123131 BE129937
BG266971 T25275 BE639257 AZ916380 CC146953
CC599221 CC826556 CC745147 CC755057 CC826178
CC787779 CC791977 AC187564 AC189794 AC191417
AC202022 AC203814 AC205042 AC202178 AC201957
AC203311 AC196641 AC200227 AC197196 AC205990
AC214838 AY105746 AJ251568 AY103869 AC231186
AY111715 AY109856 AY107726 BV128332 BV128339
BV151312 BV153065 BV153072 BV708084 BV708092
BV708096 BV708102 FJ909577 FJ910049 FJ910823
FJ910118 FJ909945 FJ909699 FJ910813 G10814
FJ909358 AA143921 AI600510 AI834397 AI973461
AI977932 AI979729 AW090925 AW146969 AW042224
AW400188 T18744 T14657 T18738 W21675
W49426 W49889 CC737644 CC761031 CC826177
CC829583 CC786951 AC191315 AC203341 AC199329
AC206177 AC212885 AJ251019 AF023160 BV128330
BV128334 BV128338 BV128340 BV153067 BV151313
BV708089 BV708099 BV708106 FJ911011 FJ910260
FJ909894 FJ911326 FJ909187 AA072454 U31522
AI600671 AI881622 AI861156 AI999950 CD972134
AW065775 AW146734 AW017656 BE186329 T18736
BI679496 BH140103 BH417883 CC149520 CC601043
CC599253 CC745148 CC826555 CC740922 CC747681
CC749112 CC751478 CC753812 CC754414 CC758368
CC759644 CC810849 CC830731 CC830819 CC832426
CC829454 CC788019 CC788100 CC838074 CC791978
CG389862        

EST Contigs in Bin 10.03

Here is the set of 6 distinct contigs verified to be in this chromosomal region.

PUT-10-171a-Zea_mays-7172 PUT-10-171a-Zea_mays-5960 PUT-10-171a-Zea_mays-2719 PUT-10-171a-Zea_mays-3199 PUT-10-171a-Zea_mays-3211203
PUT-3-171a-Zea_mays-3113        

SSRs in Bin 10.03

Here are the 33 SSRs that have been verified to be in this chromosomal region.

(AAC)4 p-umc1381 (AAG)4 p-umc1179 (AC)6 p-umc2348
(ACAT)4 p-umc2016 (ACCAG)4 p-umc1336 (AT)7 p-umc1866
(ATAC)4 p-umc1739 (CAA)4 p-umc2017 (CACAG)5 p-umc1113
(CATG)5 p-umc2067 (CGA)6 p-umc1367 (CT)8 p-umc1863
(GCC)4 p-umc1345 (GGC)4 p-umc1785 (GGCC)4 p-umc2180
(TCTG)5 p-umc2349 (TG)6 p-umc1239 AAGC p-phi050
AG p-phi054 AG(14) p-bnlg1079 AG(15) p-bnlg1762
AG(19) p-bnlg1037 AG(19) p-bnlg1547 AG(20) p-bnlg1712
AG(21) p-bnlg1655 AG(28) p-bnlg1716 GAA p-phi084
TA7 p-umc1047 p-(GATA)2(GACA)2 p-bnlg210
p-bnlg640 p-umc1938 p-umc1962    

BACs in Bin 10.03

View bin 10.03 at MaizeSequence.org to see the latest genomic alignment of the sequenced BACs - sequenced BACs are noted below with an *.

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Here are the 585 BACs that have been verified to be in this chromosomal region.

b0121J10 (@ AY105746 by in silico) b0124D05 (@ AY105746 by in silico) b0142J20 (@ AY105746 by in silico)
b0165E13 (@ AY105746 by in silico) b0202M04 (@ AY105746 by in silico) c0184I22 (@ AY105746 by in silico)
c0196K21 (@ AY105746 by in silico) c0208E12 (@ AY105746 by in silico) c0210J03 (@ AY105746 by in silico)
b0055K15 (@ AY105872 by in silico) b0061J19 (@ AY105872 by in silico) b0080C06 (@ AY105872 by in silico)
b0147I21 (@ AY105872 by in silico) c0015D11 (@ AY105872 by in silico) c0026L18 (@ AY105872 by in silico)
c0121D04 (@ AY105872 by in silico) c0168E12 (@ AY105872 by in silico) b0052J08 (@ AY107726 by in silico)
c0004F03 (@ AY107726 by in silico) c0047M11 (@ AY107726 by in silico) c0022I22 (@ AY110248 by in silico)
b0003G10 (@ AY110411 by in silico) b0017D14 (@ AY110411 by in silico) b0037I07 (@ AY110411 by in silico)
b0085I08 (@ AY110411 by in silico) b0106M06 (@ AY110411 by in silico) b0142D17 (@ AY110411 by in silico)
b0158D01 (@ AY110411 by in silico) b0176M06 (@ AY110411 by in silico) c0007D03 (@ AY110411 by in silico)
c0030K17 (@ AY110411 by in silico) c0054H16 (@ AY110411 by in silico) c0118F22 (@ AY110411 by in silico)
c0121L18 (@ AY110411 by in silico) c0131L13 (@ AY110411 by in silico) c0157G03 (@ AY110411 by in silico)
c0189H02 (@ AY110411 by in silico) c0191H23 (@ AY110411 by in silico) c0213M01 (@ AY110411 by in silico)
b0003I12 (@ AY111178 by in silico) b0012K20 (@ AY111178 by in silico) b0050P04 (@ AY111178 by in silico)
b0090G07 (@ AY111178 by in silico) b0168O14 (@ AY111178 by in silico) c0170C03 (@ AY111178 by in silico)
b0083G08 (@ AY112073 by in silico) b0145I05 (@ AY112073 by in silico) b0191F22 (@ AY112073 by in silico)
b0207F18 (@ AY112073 by in silico) c0003K17 (@ AY112073 by in silico) c0003L17 (@ AY112073 by in silico)
c0030K05 (@ AY112073 by in silico) c0033I03 (@ AY112073 by in silico) c0035I09 (@ AY112073 by in silico)
c0119F17 (@ AY112073 by in silico) b0042C19 (@ abp4 by in silico) b0066I18 (@ abp4 by in silico)
b0071M17 (@ abp4 by in silico) b0196C13 (@ abp4 by in silico) c0031J11 (@ abp4 by in silico)
b0019L19 (@ bcd147(gbp) by in silico) b0015N07 (@ bnl8.45d by RFLP Hybridization) b0038F21 (@ bnl8.45d by RFLP Hybridization)
b0051B03 (@ bnl8.45d by RFLP Hybridization) b0075N22 (@ bnl8.45d by RFLP Hybridization) b0098C09 (@ bnl8.45d by RFLP Hybridization)
b0104B02 (@ bnl8.45d by RFLP Hybridization) b0125I23 (@ bnl8.45d by RFLP Hybridization) b0143I06 (@ bnl8.45d by RFLP Hybridization)
b0205D12 (@ bnl8.45d by RFLP Hybridization) b0218M06 (@ bnl8.45d by RFLP Hybridization) b0255N07 (@ bnl8.45d by RFLP Hybridization)
b0278F21 (@ bnl8.45d by RFLP Hybridization) b0003J15 (@ bnlg1037 by SSR PCR) b0113O20 (@ bnlg1037 by SSR PCR)
b0115E05 (@ bnlg1037 by SSR PCR) b0119B21 (@ bnlg1037 by SSR PCR) b0180D12 (@ bnlg1037 by SSR PCR)
b0180E22 (@ bnlg1037 by SSR PCR) b0199I12 (@ bnlg1037 by SSR PCR) b0014A02 (@ bnlg1079 by SSR PCR)
b0045K06 (@ bnlg1079 by SSR PCR) b0047A09 (@ bnlg1079 by SSR PCR) b0052K02 (@ bnlg1079 by SSR PCR)
b0053A03 (@ bnlg1079 by SSR PCR) b0075G04 (@ bnlg1079 by SSR PCR) b0122A15 (@ bnlg1079 by SSR PCR)
b0138L15 (@ bnlg1079 by SSR PCR) b0164G04 (@ bnlg1079 by SSR PCR) b0247L23 (@ bnlg1079 by SSR PCR)
b0251F23 (@ bnlg1079 by SSR PCR) b0265D16 (@ bnlg1079 by SSR PCR) b0051K24 (@ bnlg1655 by SSR PCR)
b0097M13 (@ bnlg1655 by SSR PCR) b0156D17 (@ bnlg1655 by SSR PCR) b0158N20 (@ bnlg1655 by SSR PCR)
b0168I24 (@ bnlg1655 by SSR PCR) b0177O23 (@ bnlg1655 by SSR PCR) b0234N11 (@ bnlg1655 by SSR PCR)
b0002G14 (@ bnlg1712 by SSR PCR) b0017G13 (@ bnlg1712 by SSR PCR) b0038G10 (@ bnlg1712 by SSR PCR)
b0040A13 (@ bnlg1712 by SSR PCR) b0040F13 (@ bnlg1712 by SSR PCR) b0065G20 (@ bnlg1712 by SSR PCR)
b0080G10 (@ bnlg1712 by SSR PCR) b0083P13 (@ bnlg1712 by SSR PCR) b0101A11 (@ bnlg1712 by SSR PCR)
b0184F13 (@ bnlg1712 by SSR PCR) b0271C24 (@ bnlg1712 by SSR PCR) b0001H15 (@ bnlg1716 by SSR PCR)
b0021M13 (@ bnlg1716 by SSR PCR) b0063M12 (@ bnlg1716 by SSR PCR) b0066K17 (@ bnlg1716 by SSR PCR)
b0105C20 (@ bnlg1762a by SSR PCR) b0107A07 (@ bnlg1762a by SSR PCR) b0156B08 (@ bnlg1762a by SSR PCR)
b0219P10 (@ bnlg1762a by SSR PCR) b0005K03 (@ bnlg210 by SSR PCR) b0005K03 (@ bnlg210 by SSR PCR)
b0067B19 (@ bnlg210 by SSR PCR) b0068J24 (@ bnlg210 by SSR PCR) b0126A13 (@ bnlg210 by SSR PCR)
b0229C19 (@ bnlg210 by SSR PCR) b0271A22 (@ bnlg210 by SSR PCR) b0051K24 (@ bnlg640 by SSR PCR)
b0097M13 (@ bnlg640 by SSR PCR) b0156D17 (@ bnlg640 by SSR PCR) b0158N20 (@ bnlg640 by SSR PCR)
b0177O23 (@ bnlg640 by SSR PCR) b0234N11 (@ bnlg640 by SSR PCR) b0057G14 (@ cdo456a by in silico)
b0061M15 (@ cdo456a by in silico) b0074G24 (@ cdo456a by in silico) b0075G24 (@ cdo456a by in silico)
b0087J15 (@ cdo456a by in silico) b0089E16 (@ cdo456a by in silico) b0105P18 (@ cdo456a by in silico)
b0106B24 (@ cdo456a by in silico) b0144J08 (@ cdo456a by in silico) b0186H20 (@ cdo456a by in silico)
b0203L04 (@ cdo456a by in silico) b0219A04 (@ cdo456a by in silico) b0223I06 (@ cdo456a by in silico)
b0244N08 (@ cdo456a by in silico) b0253E20 (@ cdo456a by in silico) b0267B07 (@ cdo456a by in silico)
c0013D23 (@ cdo456a by in silico) c0013E23 (@ cdo456a by in silico) c0013E24 (@ cdo456a by in silico)
c0027O22 (@ cdo456a by in silico) c0040E02 (@ cdo456a by in silico) c0064E06 (@ cdo456a by in silico)
c0069I21 (@ cdo456a by in silico) c0070G09 (@ cdo456a by in silico) c0086H11 (@ cdo456a by in silico)
c0089N13 (@ cdo456a by in silico) c0104H15 (@ cdo456a by in silico) c0106D21 (@ cdo456a by in silico)
c0110O14 (@ cdo456a by in silico) c0121N07 (@ cdo456a by in silico) c0129J24 (@ cdo456a by in silico)
c0133A16 (@ cdo456a by in silico) c0137I17 (@ cdo456a by in silico) c0144I24 (@ cdo456a by in silico)
c0145F23 (@ cdo456a by in silico) c0167J09 (@ cdo456a by in silico) c0186F09 (@ cdo456a by in silico)
c0200H20 (@ cdo456a by in silico) c0207F01 (@ cdo456a by in silico) c0213C09 (@ cdo456a by in silico)
c0214J11 (@ cdo456a by in silico) c0216N20 (@ cdo456a by in silico) c0220J07 (@ cdo456a by in silico)
c0231E14 (@ cdo456a by in silico) c0231M12 (@ cdo456a by in silico) c0237C12 (@ cdo456a by in silico)
c0244J12 (@ cdo456a by in silico) c0268L10 (@ cdo456a by in silico) c0268P08 (@ cdo456a by in silico)
c0288I16 (@ cdo456a by in silico) b0007C23 (@ chr109a by in silico) b0012M04 (@ chr109a by in silico)
b0033P09 (@ chr109a by in silico) b0055J03 (@ chr109a by in silico) b0066A22 (@ chr109a by in silico)
b0112M04 (@ chr109a by in silico) b0118L17 (@ chr109a by in silico) b0126O03 (@ chr109a by in silico)
b0130F15 (@ chr109a by in silico) b0139M23 (@ chr109a by in silico) b0150J08 (@ chr109a by in silico)
b0187G11 (@ chr109a by in silico) b0193L17 (@ chr109a by in silico) b0206L22 (@ chr109a by in silico)
c0002C23 (@ chr109a by in silico) c0028O04 (@ chr109a by in silico) c0061G15 (@ chr109a by in silico)
c0145P06 (@ chr109a by in silico) c0176C18 (@ chr109a by in silico) c0179B13 (@ chr109a by in silico)
c0184G14 (@ chr109a by in silico) c0215F19 (@ chr109a by in silico) b0066G17 (@ chs1 by Overgo Hybridization)
b0135L18 (@ chs1 by Overgo Hybridization) c0042M03 (@ chs1 by Overgo Hybridization) c0043G01 (@ chs1 by Overgo Hybridization)
c0133D03 (@ chs1 by Overgo Hybridization) c0137C13 (@ chs1 by Overgo Hybridization) c0159C04 (@ chs1 by Overgo Hybridization)
b0028M20 (@ csu276 by in silico) b0059I15 (@ csu276 by in silico) b0193M11 (@ csu276 by in silico)
b0223I14 (@ csu276 by in silico) b0277H14 (@ csu276 by in silico) b0277H14 (@ csu276 by in silico)
b0003O24 (@ csu745c(rpPo) by in silico) b0099L10 (@ csu745c(rpPo) by in silico) b0158C07 (@ csu745c(rpPo) by in silico)
b0182E01 (@ csu745c(rpPo) by in silico) b0255A15 (@ csu745c(rpPo) by in silico) b0281E02 (@ csu745c(rpPo) by in silico)
c0025H13 (@ csu745c(rpPo) by in silico) c0057M05 (@ csu745c(rpPo) by in silico) c0089G18 (@ csu745c(rpPo) by in silico)
c0091A02 (@ csu745c(rpPo) by in silico) c0201H22 (@ csu745c(rpPo) by in silico) c0224N09 (@ csu745c(rpPo) by in silico)
c0258L19 (@ csu745c(rpPo) by in silico) c0259M22 (@ csu745c(rpPo) by in silico) c0262H22 (@ csu745c(rpPo) by in silico)
c0266N15 (@ csu745c(rpPo) by in silico) c0266N16 (@ csu745c(rpPo) by in silico) b0030L22 (@ csu969b(fgp) by PCR)
b0043J01 (@ csu969b(fgp) by PCR) b0076K12 (@ csu969b(fgp) by PCR) b0128N02 (@ csu969b(fgp) by PCR)
b0159K07 (@ csu969b(fgp) by PCR) b0191F04 (@ csu969b(fgp) by PCR) b0191F04 (@ csu969b(fgp) by PCR)
b0254J08 (@ csu969b(fgp) by PCR) b0254J08 (@ csu969b(fgp) by PCR) b0050C24 (@ dcd1 by in silico)
b0053F16 (@ dcd1 by in silico) b0150H22 (@ dcd1 by in silico) c0045H09 (@ dcd1 by in silico)
c0066E14 (@ dcd1 by in silico) c0102C05 (@ dcd1 by in silico) c0130M07 (@ dcd1 by in silico)
c0135E20 (@ dcd1 by in silico) c0152K18 (@ dcd1 by in silico) c0165M24 (@ dcd1 by in silico)
c0169D01 (@ dcd1 by in silico) c0197G13 (@ dcd1 by in silico) c0197J24 (@ dcd1 by in silico)
c0200C17 (@ dcd1 by in silico) c0213L09 (@ dcd1 by in silico) b0016D03 (@ dnp1 by Overgo Hybridization)
b0022F02 (@ dnp1 by Overgo Hybridization) b0025H18 (@ dnp1 by Overgo Hybridization) b0086C02 (@ dnp1 by Overgo Hybridization)
b0129A16 (@ dnp1 by Overgo Hybridization) b0136N07 (@ dnp1 by Overgo Hybridization) b0143P16 (@ dnp1 by Overgo Hybridization)
b0153C23 (@ dnp1 by Overgo Hybridization) b0204H22 (@ dnp1 by Overgo Hybridization) c0213N03 (@ dnp1 by Overgo Hybridization)
b0098L24 (@ du1 by in silico) c0018C04 (@ du1 by in silico) c0027N07 (@ du1 by in silico)
c0035P23 (@ du1 by in silico) c0036C19 (@ du1 by in silico) c0083J16 (@ du1 by in silico)
c0130I10 (@ du1 by in silico) c0168I24 (@ du1 by in silico) b0056P09 (@ fie2 by in silico)
b0135C24 (@ fie2 by in silico) b0169O04 (@ fie2 by in silico) b0200I01 (@ fie2 by in silico)
c0034I03 (@ fie2 by in silico) c0040C04 (@ fie2 by in silico) c0041G19 (@ fie2 by in silico)
c0078G11 (@ fie2 by in silico) c0078H08 (@ fie2 by in silico) c0126K05 (@ fie2 by in silico)
c0193C06 (@ fie2 by in silico) b0016D03 (@ gcsh1 by in silico) b0022F02 (@ gcsh1 by in silico)
b0025H18 (@ gcsh1 by in silico) b0086C02 (@ gcsh1 by in silico) b0129A16 (@ gcsh1 by in silico)
b0136N07 (@ gcsh1 by in silico) c0052G04 (@ gcsh1 by in silico) c0118N09 (@ gcsh1 by in silico)
c0038L07 (@ glu1 by in silico) c0044I07 (@ glu1 by in silico) c0081I15 (@ glu1 by in silico)
c0089H07 (@ glu1 by in silico) c0091D10 (@ glu1 by in silico) c0094E13 (@ glu1 by in silico)
c0116A06 (@ glu1 by in silico) c0123L12 (@ glu1 by in silico) c0124C22 (@ glu1 by in silico)
c0124C23 (@ glu1 by in silico) c0124E19 (@ glu1 by in silico) c0136A14 (@ glu1 by in silico)
c0151C01 (@ glu1 by in silico) c0152G22 (@ glu1 by in silico) c0160P09 (@ glu1 by in silico)
c0168P23 (@ glu1 by in silico) c0177M21 (@ glu1 by in silico) c0177M22 (@ glu1 by in silico)
c0181K01 (@ glu1 by in silico) c0189J09 (@ glu1 by in silico) c0189K09 (@ glu1 by in silico)
c0198O19 (@ glu1 by in silico) b0009I01 (@ gpm13 by in silico) b0011G04 (@ gpm13 by in silico)
b0014C06 (@ gpm13 by in silico) b0051I16 (@ gpm13 by in silico) b0064C02 (@ gpm13 by in silico)
b0140C22 (@ gpm13 by in silico) b0149B03 (@ gpm13 by in silico) b0156E23 (@ gpm13 by in silico)
b0178B19 (@ gpm13 by in silico) b0188B13 (@ gpm13 by in silico) b0211N02 (@ gpm13 by in silico)
c0007K10 (@ gpm13 by in silico) b0031B20 (@ lim2 by in silico) b0070N08 (@ lim2 by in silico)
b0135L18 (@ lim2 by in silico) b0142D22 (@ lim2 by in silico) b0169B09 (@ lim2 by in silico)
b0258P21 (@ lim2 by in silico) b0006L04 (@ nac1 by Overgo Hybridization) b0006L04 (@ nac1 by SSR PCR)
b0019L22 (@ nac1 by Overgo Hybridization) b0019L22 (@ nac1 by SSR PCR) b0022P16 (@ nac1 by SSR PCR)
b0075P21 (@ nac1 by Overgo Hybridization) b0160H14 (@ nac1 by Overgo Hybridization) b0160H14 (@ nac1 by SSR PCR)
b0205G16 (@ nac1 by Overgo Hybridization) b0276F17 (@ nac1 by SSR PCR) b0276L04 (@ nac1 by SSR PCR)
c0003A19 (@ nac1 by Overgo Hybridization) c0003C19 (@ nac1 by Overgo Hybridization) c0064O06 (@ nac1 by Overgo Hybridization)
c0086N19 (@ nac1 by Overgo Hybridization) c0086O21 (@ nac1 by Overgo Hybridization) c0087O16 (@ nac1 by Overgo Hybridization)
c0109K22 (@ nac1 by Overgo Hybridization) c0201J04 (@ nac1 by Overgo Hybridization) b0069G24 (@ npi602 by SSR PCR)
b0095H18 (@ npi602 by SSR PCR) b0260G07 (@ npi602 by SSR PCR) b0008L01 (@ pao1 by SSR PCR)
b0008L01 (@ pao1 by in silico) b0017H11 (@ pao1 by in silico) b0131M22 (@ pao1 by in silico)
c0011L23 (@ pao1 by in silico) c0070K06 (@ pao1 by in silico) c0084N01 (@ pao1 by in silico)
c0096E23 (@ pao1 by in silico) c0096P11 (@ pao1 by in silico) c0104B13 (@ pao1 by in silico)
c0104F01 (@ pao1 by in silico) c0147J01 (@ pao1 by in silico) b0020E07 (@ sad1 by in silico)
b0082A05 (@ sad1 by in silico) b0085J23 (@ sad1 by in silico) b0108K01 (@ sad1 by in silico)
b0122F06 (@ sad1 by in silico) b0171H23 (@ sad1 by in silico) c0010I18 (@ sad1 by in silico)
c0010J18 (@ sad1 by in silico) c0014I19 (@ sad1 by in silico) c0021N06 (@ sad1 by in silico)
c0022B03 (@ sad1 by in silico) c0022D01 (@ sad1 by in silico) c0056I18 (@ sad1 by in silico)
c0074K05 (@ sad1 by in silico) c0092I15 (@ sad1 by in silico) c0093M10 (@ sad1 by in silico)
c0121J24 (@ sad1 by in silico) c0156N02 (@ sad1 by in silico) c0163N02 (@ sad1 by in silico)
c0170M19 (@ sad1 by in silico) c0170O08 (@ sad1 by in silico) c0196E20 (@ sad1 by in silico)
b0024E22 (@ sdg108b by in silico) b0156B03 (@ sdg108b by in silico) c0026B10 (@ sdg108b by in silico)
c0087H24 (@ sdg108b by in silico) c0108C17 (@ sdg108b by in silico) c0109J06 (@ sdg108b by in silico)
c0194J18 (@ sdg108b by in silico) b0039L06 (@ trm1 by in silico) b0097B01 (@ trm1 by in silico)
b0128N18 (@ trm1 by in silico) b0164N17 (@ trm1 by in silico) c0019O20 (@ trm1 by in silico)
c0133C10 (@ trm1 by in silico) c0153J08 (@ trm1 by in silico) c0172N02 (@ trm1 by in silico)
b0008M01 (@ ufg59 by PCR) b0189F18 (@ ufg59 by PCR) b0259B13 (@ ufg59 by PCR)
b0005M04 (@ umc1113 by SSR PCR) b0005M04 (@ umc1113 by in silico) b0039I03 (@ umc1113 by SSR PCR)
b0060P23 (@ umc1113 by SSR PCR) b0093H05 (@ umc1113 by in silico) b0166J07 (@ umc1113 by SSR PCR)
b0166J07 (@ umc1113 by in silico) b0190M01 (@ umc1113 by SSR PCR) b0254I19 (@ umc1113 by SSR PCR)
c0002C01 (@ umc1113 by in silico) b0014A02 (@ umc1239 by SSR PCR) b0045K06 (@ umc1239 by SSR PCR)
b0053A03 (@ umc1239 by SSR PCR) b0121A04 (@ umc1239 by SSR PCR) b0138L15 (@ umc1239 by SSR PCR)
b0138L15 (@ umc1239 by in silico) b0164L04 (@ umc1239 by SSR PCR) b0227C11 (@ umc1239 by SSR PCR)
b0251F23 (@ umc1239 by SSR PCR) b0251F23 (@ umc1239 by SSR PCR) b0265D16 (@ umc1239 by SSR PCR)
b0267G04 (@ umc1239 by SSR PCR) b0278G02 (@ umc1239 by SSR PCR) c0208G15 (@ umc1239 by in silico)
b0005E07 (@ umc130 by RFLP Hybridization) b0020J23 (@ umc130 by RFLP Hybridization) b0036A07 (@ umc130 by RFLP Hybridization)
b0055N09 (@ umc130 by RFLP Hybridization) b0055N09 (@ umc130 by in silico) b0064A08 (@ umc130 by in silico)
b0073C18 (@ umc130 by in silico) b0079I03 (@ umc130 by in silico) b0081L08 (@ umc130 by in silico)
b0100L18 (@ umc130 by RFLP Hybridization) b0115F17 (@ umc130 by RFLP Hybridization) b0135P08 (@ umc130 by RFLP Hybridization)
b0158L13 (@ umc130 by RFLP Hybridization) b0180J02 (@ umc130 by RFLP Hybridization) b0217O20 (@ umc130 by RFLP Hybridization)
b0217O20 (@ umc130 by in silico) b0254B17 (@ umc130 by RFLP Hybridization) b0277G02 (@ umc130 by RFLP Hybridization)
b0287N14 (@ umc130 by RFLP Hybridization) c0004C09 (@ umc130 by in silico) c0008G18 (@ umc130 by in silico)
c0077N08 (@ umc130 by in silico) c0135D22 (@ umc130 by in silico) c0169A11 (@ umc130 by in silico)
c0215F16 (@ umc130 by in silico) c0227C14 (@ umc130 by in silico) c0243K19 (@ umc130 by in silico)
b0046H07 (@ umc1336 by SSR PCR) b0232K07 (@ umc1336 by SSR PCR) b0050C03 (@ umc1345 by in silico)
b0106J10 (@ umc1345 by in silico) b0134G13 (@ umc1345 by in silico) c0042O20 (@ umc1345 by in silico)
c0048M09 (@ umc1345 by in silico) b0005G09 (@ umc1367 by SSR PCR) b0061L16 (@ umc1367 by SSR PCR)
b0061L16 (@ umc1367 by SSR PCR) b0062E19 (@ umc1367 by SSR PCR) b0107G09 (@ umc1367 by SSR PCR)
b0171L15 (@ umc1367 by SSR PCR) b0239G07 (@ umc1367 by SSR PCR) b0079H03 (@ umc1381 by SSR PCR)
b0090I11 (@ umc1381 by SSR PCR) b0284B15 (@ umc1381 by SSR PCR) b0188B13 (@ umc155 by SSR PCR)
b0227E19 (@ umc155 by SSR PCR) b0044D15 (@ umc1739 by SSR PCR) b0044D15 (@ umc1739 by SSR PCR)
b0200A06 (@ umc1739 by SSR PCR) b0200A06 (@ umc1739 by SSR PCR) b0210L05 (@ umc1739 by SSR PCR)
b0226P10 (@ umc1739 by SSR PCR) b0240L10 (@ umc1739 by SSR PCR) b0050J18 (@ umc1785 by SSR PCR)
b0125P17 (@ umc1785 by SSR PCR) b0177J18 (@ umc1785 by SSR PCR) b0177O13 (@ umc1785 by SSR PCR)
b0225O08 (@ umc1785 by SSR PCR) b0237J06 (@ umc1785 by SSR PCR) b0244G22 (@ umc1785 by SSR PCR)
b0187C09 (@ umc1863 by SSR PCR) b0194J08 (@ umc1863 by SSR PCR) b0229P24 (@ umc1863 by SSR PCR)
b0243K08 (@ umc1863 by SSR PCR) b0044K13 (@ umc1866 by SSR PCR) b0171D07 (@ umc1866 by SSR PCR)
b0010A12 (@ umc1938 by SSR PCR) b0060E13 (@ umc1938 by SSR PCR) b0060H23 (@ umc1938 by SSR PCR)
b0078M11 (@ umc1938 by SSR PCR) b0180G03 (@ umc1938 by SSR PCR) b0227A05 (@ umc1938 by SSR PCR)
b0050J18 (@ umc1962 by SSR PCR) b0125P17 (@ umc1962 by SSR PCR) b0177J18 (@ umc1962 by SSR PCR)
b0200A23 (@ umc1962 by SSR PCR) b0225O08 (@ umc1962 by SSR PCR) b0244G22 (@ umc1962 by SSR PCR)
b0008L01 (@ umc2017 by SSR PCR) b0008L01 (@ umc2017 by in silico) b0017H11 (@ umc2017 by in silico)
b0131M22 (@ umc2017 by SSR PCR) b0131M22 (@ umc2017 by in silico) b0249J19 (@ umc2017 by SSR PCR)
c0011L23 (@ umc2017 by in silico) c0070K06 (@ umc2017 by in silico) c0084N01 (@ umc2017 by in silico)
c0096E23 (@ umc2017 by in silico) c0096P11 (@ umc2017 by in silico) c0104B13 (@ umc2017 by in silico)
c0104F01 (@ umc2017 by in silico) c0147J01 (@ umc2017 by in silico) b0008L01 (@ umc2067 by SSR PCR)
b0008L01 (@ umc2067 by in silico) b0017H11 (@ umc2067 by SSR PCR) b0017H11 (@ umc2067 by in silico)
b0131M22 (@ umc2067 by SSR PCR) b0131M22 (@ umc2067 by in silico) c0011L23 (@ umc2067 by in silico)
c0070K06 (@ umc2067 by in silico) c0084N01 (@ umc2067 by in silico) c0096E23 (@ umc2067 by in silico)
c0096P11 (@ umc2067 by in silico) c0104B13 (@ umc2067 by in silico) c0104F01 (@ umc2067 by in silico)
c0147J01 (@ umc2067 by in silico) b0028M20 (@ umc2180 by SSR PCR) b0193M11 (@ umc2180 by SSR PCR)
b0277H14 (@ umc2180 by SSR PCR) b0277H14 (@ umc2180 by SSR PCR) b0002K12 (@ umc2348 by in silico)
b0006J22 (@ umc2348 by SSR PCR) b0006J22 (@ umc2348 by in silico) b0009C13 (@ umc2348 by SSR PCR)
b0009C13 (@ umc2348 by in silico) b0022L12 (@ umc2348 by SSR PCR) b0022L12 (@ umc2348 by in silico)
b0025L14 (@ umc2348 by SSR PCR) b0025L14 (@ umc2348 by in silico) b0075C21 (@ umc2348 by in silico)
b0132E22 (@ umc2348 by SSR PCR) b0132E22 (@ umc2348 by in silico) b0161E11 (@ umc2348 by in silico)
b0175A20 (@ umc2348 by in silico) c0046P11 (@ umc2348 by in silico) c0061K19 (@ umc2348 by in silico)
c0064F01 (@ umc2348 by in silico) c0074L06 (@ umc2348 by in silico) c0080P21 (@ umc2348 by in silico)
c0097F21 (@ umc2348 by in silico) c0097G14 (@ umc2348 by in silico) c0099D03 (@ umc2348 by in silico)
c0107A21 (@ umc2348 by in silico) c0107C18 (@ umc2348 by in silico) c0116M24 (@ umc2348 by in silico)
c0122K10 (@ umc2348 by in silico) c0127H03 (@ umc2348 by in silico) c0137D16 (@ umc2348 by in silico)
c0137E16 (@ umc2348 by in silico) c0137K16 (@ umc2348 by in silico) c0142K05 (@ umc2348 by in silico)
c0146H21 (@ umc2348 by in silico) c0163F07 (@ umc2348 by in silico) c0165J04 (@ umc2348 by in silico)
c0166J03 (@ umc2348 by in silico) c0166L02 (@ umc2348 by in silico) c0171K22 (@ umc2348 by in silico)
c0178F05 (@ umc2348 by in silico) c0200L15 (@ umc2348 by in silico) c0206E23 (@ umc2348 by in silico)
c0216A05 (@ umc2348 by in silico) b0028M20 (@ umc2349 by SSR PCR) b0277H14 (@ umc2349 by SSR PCR)    

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