A novel linkage map of sugarcane with evidence for clustering of retrotransposon-based markers

Palhares, Alessandra C; Rodrigues-Morais, Taislene B; Van Sluys, Marie-Anne; Domingues, Douglas S; Maccheroni, Walter; Jordão, Hamilton; Souza, Anete P; Marconi, Thiago G; Mollinari, Marcelo; Gazaffi, Rodrigo; Garcia, Antonio Augusto F; Vieira, Maria Lucia Carneiro

doi:10.1186/1471-2156-13-51

BMC Genomic Data

Table 4 Details on the sugarcane microsatellite loci derived from expressed sequence tags (ESTs)

From: A novel linkage map of sugarcane with evidence for clustering of retrotransposon-based markers

Marker code	Repeat motif	Forward primer (5′→3′)	Reverse primer (5′→3′)	PCR^e	AT^f	D^g	Allele number and size range^h
ESTA26 ^a	(TG)₁₁	GGCAGCCCCACATCTTCCT	GGGCACAAGCATCCGAACC	1	56.0	S	4	172-186
ESTA48 ^a	(CA)₈	AGCAACTCCGGCCTCTCCTG	CTTTCTGTTTTGCTCCTCCGTCTG	1	62.7	S	10	233-295
ESTA53 ^a	(TG)₈	TGGAAATGGCAGCTGGTCTCGT	ATGCACGTACCAGAGGGAGATTTG	1	58.9	S	9	168-192
ESTA61 ^a	(AT)₁₂	ACCTCAGTCTCCTCCTCAACC	TATACTACACATGCACAGGCTACG	1	56.4	S	5	236-246
ESTB14 ^a	(CGT)₈	TGAGGGAATGAATGGACTGG	CCACCACCACCATACCTGTC	1	52.0	S	9	285-315
ESTB55 ^a	(CCA)₅	CTTCTTGGCCTTGGCGTTACTGA	GCTAGCTGGCCCCATTTCCTCT	1	60.0	S	3	118-124
ESTB60 ^a	(TTG)₁₀	AGCCGCAATGAATCCAACTG	CTCTAGCTCCGACGATGATACCTC	1	61.0	S	8	157-206
ESTB82 ^a	(CGT)₉	CGTCGATCGAGATGAAGAAGG	GAAGCAGTCGTGGAAGTGGAG	1	62.7	S	5	245-263
ESTB94 ^a	(CTT)₉	GAGGCAGCCAGGCAGGTCAC	GGTGGCAGTGTTCAGGCAGATG	1	61.0	S	10	210-279
ESTB99 ^a	(TCG)₅	GAGGTCCTTCTTGTAGTTGTATGC	GTGCCGGAGGATTTGATG	1	64.7	S	4	215-224
ESTB100 ^a	(TCG)₆	CCACGGGCGAGGACGAGTA	GGGTCCTTCTTCGCCTCGTG	1	64.7	S	13	240-278
ESTB118 ^a	(TTC)₆	CTTGGCTAGGGTTTCTTGAGTCGT	CATGGCTTTTGGCTTGCTTCT	1	61.0	S	5	106-163
ESTB189 ^b	(TCA)₁₀	GTAAGGAAGAAGCAACAAACAACAG	GATTCGATGCAACTCTCCTGTAAA	1	60.0	S	5	261-280
ESTB191 ^b	(GCT)₅	GCGCCATCAGGGAAGCCAAAAC	GCGCGTGCGAGCAGATGAAC	1	60.0	S	5	213-226
ESTC80 ^a	(ATTC)₃	ATTCTTTCTCCCCCTGTTGTGC	GTCGCCAGATCGCTTTCGTT	1	58.9	S	7	188-292
CV06 ^c	(AATT)₁₃	TCTCAAGCTTCGCCAGCTA	TGGCTCGGCTGTAGGAATTA	2	60.0	S	3	188-230
CV11 ^c	(GAA)₆	TGGCATGTGTCATAGCCAAT	CCCCAACTGGGACTTTTACA	2	60.0	S	6	227-242
CV22 ^c	(AGGG)5	CACTACTCGCCCCGATTTC	CGAGTGCTTCTCCATCTGC	2	64.0	F	8	140-166
CV23 ^c	(GGAA)₇/(AGG)₆	GAACTGCTCACTGGCTCCTC	GTAGAAGTCCGTCGCCGTAA	2	64.0	F	9	150-206
CV24 ^c	(CCAA)₅/(CACCT)₄	TCGGAGAAGTTGACCGAGTT	GGTTTAGAGTTGGGGCCTTC	2	60.0	F	7	187-205
CV29 ^d	(ATCT)₁₄	TCGCGTCCACCAATGTAACC	GCGTGCATCGCTTGTGTCTT	2	64.0	F	10	85-133
CV37 ^d	(TTTC)₁₅	GGATGGACGACGTGTCCTGG	ATAAAGTGGCCGCTTGGATTGA	2	64.0	F	6	117-155
CV38 ^d	(CTTTT)₁₈	GAAGCAGGGGCCTCAAGTTG	GTCAAACAGGCGATCTGGCTC	2	64.0	F	9	109-199
CV46 ^c	(GGTAA)₁₁	TGTTCCAAGTTCATGCGCTCC	ATGCATGCAGGTTCAAAAGCAG	2	64.0	F	5	146-188
CV51 ^c	(TGT)₁₃	CTACCCCAACTTGCTTGGGAC	GACTGGAACAAAGACGGACTG	2	64.0	F	3	147-160
CV53 ^c	(AAAAT)₅/(TTTAT)₆	CCCCACCGTAGCTTGTGCAT	AAACGTGCACATGCTTGTATGC	2	64.0	F	7	160-183
CV58 ^c	(ATAGAT)₁₀	CGGGTAGTTAGGAGGAGATGG	GTCATCCATTTTGGAACGAATGG	2	64.0	F	6	153-195
CV78 ^c	(CTGTG)₉	ACGAGGCCACCATAGAACATG	GCAATTGGGAGGAGAGGAATG	2	64.0	F	9	144-203
CV79 ^c	(CTATAT)₁₁/(TATAGA)₆	GGCACTGCTGGTGGTTGATTG	TCCCACATCAAGAGGCAGCTA	2	64.0	F	7	136-197
CV86 ^c	(AATT)₈	CCTCAGCAGCCCAAAGTCCT	GTCGGAATCAGCCGGATTAGC	2	64.0	F	5	159-187
CV91 ^c	(GCC)₆/(GCA)₆	AAAGGAAATCGCCCTCCGTCT	CCGATGATGAGCCAGCAATCC	2	64.0	F	8	175-197
CV94 ^c	(AAAAAG)₅/(CGT)₅	GGCAGGCCAAGATGAATGAAG	AGCACAGCGGAGGGTACGG	2	64.0	F	4	187-205
CV100 ^c	(GAG)₁₃	CTGTTGAGGAGCCGGATGAG	CTCTTCCGATGGCTCGGTCT	2	64.0	F	9	222-256
CV101 ^c	(ATC)₂₃	GTCGTCGTCGTCACGATCATC	AGTTGACGGCATGGTTCTTGC	2	64.0	F	11	111-180
CV104 ^c	(TCCTG)₅	GATTTTCGACTGTGCGCTTGG	AAGTTCTCTGCCGGAGCAAAC	2	64.0	F	6	133-158
CV106 ^c	(GGC)₈	AAACAGAGCATACTCGAGGCC	ACGTTGCTGACGAGGTTTTCC	2	64.0	F	6	146-161
CV115 ^c	(TCACAG)₁₀/(GTA)₆/(AGA)₅	GTCCATGTCCATCCATGATCC	GGAGCTCCGTCTTCTTGTTAC	2	60.0	S	6	150-174
CV119 ^c	(AAAAC)₇	TATCTCTCCTTGGTTTGGATGG	CACCCTACCAAATACCACAACA	2	64.0	F	5	121-175
CV128 ^c	(GCA)₁₃	AGGGCAACGGAGTCTTCGAC	CTGAACTCCGATGTGCTGGTG	2	60.0	F	5	147-168
CV135 ^c	(AAG)₁₆	AGCAAAACCAGCCTTCCCTTC	CTGTTTGTTTCTGCTTGCTTGC	2	64.0	F	6	129-159
CV144 ^c	(TCTCCG)₅	GCGCCTCCGTGGATAAGAATC	CCTTCCCCTACAGCGCCTAC	2	64.0	F	5	146-164

^{a, b, c, d} Develop by Oliveira et al.[72], Marconi et al.[73], CanaVialis (unpublished); Maccheroni et al.[74], respectively.
^e PCR program as described in Material and Methods.
^f Annealing temperature in the amplification reaction.
^g D: Silver-stained polyacrylamide gel electrophoresis (S) or fluorescence-based automated capillary electrophoresis (F) for the detection of EST-SSR alleles.
^h Observed number of alleles per locus and their size ranges in bp.

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