A sex-specific linkage map of the white shrimp Penaeus (Litopenaeus) vannamei based on AFLP markers

Pérez, Franklin; Erazo, Constanza; Zhinaula, Mariuxi; Volckaert, Filip; Calderón, Jorge

doi:10.1016/j.aquaculture.2004.09.002

Cited by 63 publications

(54 citation statements)

References 31 publications

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“…Li et al 2006;Maneeruttanarungroj et al 2006), except for P. vannamei (Perez et al 2004;Zhang et al 2006), more markers could be mapped on the male map than on the female map. The intermarker distance was also slightly lower in the male map and the estimated genome size was larger in the female than in the male map.…”

Section: Resultsmentioning

confidence: 99%

“…Molecular markers have been used for the analysis of the population structure of wild shrimp resources (for review, see Benzie 2000;Xu et al 2001), strain and species identification (Khamnamtong et al 2005), and parentage analysis (e.g., Jerry et al 2006). First-stage linkage maps have been generated for P. monodon (Wilson et al 2002;Maneeruttanarungroj et al 2006), P. vannamei (Perez et al 2004;Zhang et al 2006), P. chinensis (Z. , and P. japonicus (Moore et al 1999;Li et al 2003). In the case of P. japonicus, a QTL for growth has been identified on the male map (Y. .…”

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confidence: 99%

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High-Density Linkage Maps and Sex-Linked Markers for the Black Tiger Shrimp (Penaeus monodon)

et al. 2008

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We report on the construction of sex-specific high-density linkage maps and identification of sex-linked markers for the black tiger shrimp (Penaeus monodon). Overall, we identified 44 male and 43 female linkage groups (2n ¼ 88) from the analysis of 2306 AFLP markers segregating in three full-sib families, covering 2378 and 2362 cM, respectively. Twenty-one putatively homologous linkage groups, including the sex-linkage groups, were identified between the female and male linkage maps. Six sex-linked AFLP marker alleles were inherited from female parents in the three families, suggesting that the P. monodon adopts a WZ-ZZ sex-determining system. Two sex-linked AFLP markers, one of which we converted into an allele-specific assay, confirmed their association with sex in a panel of 52 genetically unrelated animals.

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Section: Resultsmentioning

confidence: 99%

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confidence: 99%

High-Density Linkage Maps and Sex-Linked Markers for the Black Tiger Shrimp (Penaeus monodon)

et al. 2008

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“…This strategy originated from eucalyptus (Eucalyptus grandis) genetic mapping of RAPD markers (Grattapaglia and Sederoff 1994) and has been used in genetic mapping of many aquatic animals Perez et al 2004;Yue et al 2004;Wang et al 2006). In the present study, a double-pseudo testcross strategy was used in the genetic linkage mapping of paternity and maternity of bluegill.…”

Section: Discussionmentioning

confidence: 99%

“…However, this type of shortage could be avoided in the linkage mapping approach that is based on a pseudo-testcross strategy, since only a 1:1 ratio segregant loci could be recorded in the linkage mapping, and the ''band'' in the electrophoresis pattern of progeny would only correspond to heterozygosity and not to dominant homozygosity. Because of its ability to identify a large number of polymorphic bands without any prior knowledge of DNA sequences in the organism, the AFLP technique is generally accepted as a very powerful and efficient tool in the preliminary genetic linkage mapping in aquatic animals Li et al , 2005Perez et al 2004 LG9 62.6cM (8) LG10 54.5cM (4) LG11 43.4cM (9) LG12 38.6cM (3) LG13 32.6cM (3) LG14 31cM (3) LG15 28.2cM (6) LG2 116cM (10) LG3 106.7cM (8) LG4 89.7cM (9) LG5 81.6cM (3) LG6 76.9cM (6) LG7 75.8cM (5) LG8 72.6cM (6) lm23-529 LG16 28.1cM (4) LG17 25.3cM (7) LG18 23.9cM (4) LG19 23.8cM (3) LG20 23cM (5) LG21 22.4cM (3) LG22 20.3cM (3) LG23 18.7cM (3) LG24 17.5cM (5) LG25 12.2cM (5) LG26 11.7cM (4) LG27 10.7cM (4) LG28 7.2cM (7) LG29 6.8cM (6) LG30 5.9cM (3) LG31 5.8cM (3) LG32 4.6cM (3) LG33 2.3cM (3) Fig. 2 Male linkage groups of AFLP markers of bluegill sunfish (Lepomis macrochirus).…”

Section: Discussionmentioning

confidence: 99%

A first genetic linkage map of bluegill sunfish (Lepomis macrochirus) using AFLP markers

Wang

Wang²,

Yao³

et al. 2009

Aquacult Int

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Genetic linkage maps were constructed for bluegill sunfish, Lepomis macrochirus, using AFLP in a F 1 inter-population hybrid family based on a double-pseudo testcross strategy. Sixty-four primer combinations produced 4,010 loci, of which 222 maternal loci and 216 paternal loci segregated at a 1:1 Mendelian ratio, respectively. The female and male framework maps consisted of 176 and 177 markers ordered into 31 and 33 genetic linkage groups, spanning 1628.2 and 1525.3 cM, with an average marker spacing of 10.71 and 10.59 cM, respectively. Genome coverage was estimated to be 69.5 and 69.3% for the female and male framework maps, respectively. On the maternal genetic linkage map, the maximum length and marker number of the linkage groups were 122.9 cM and 14, respectively. For the paternal map, the maximum length and marker number of the linkage groups were 345.3 cM and 19, respectively, which were much greater than those on the maternal genetic linkage map. The other genetic linkage map parameters of the paternal genetic linkage map were similar to those in the maternal genetic linkage map. For both the female and male maps, the number of linkage groups was greater than the haploid chromosome number of bluegill (2n = 48), indicating some linkage groups may distribute on the same chromosome. This genetic linkage mapping is the first step toward to the QTL mapping of traits important to cultured breeding in bluegill.

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“…Until now, the genetic maps of L . vannamei consisted primarily of AFLP markers (Perez et al, 2004;Zhang et al, 2007), although several microsatellite markers were also included Garcia and Alcivar-warren, 2007). An SNP-based linkage map was recently generated (Du et al, 2010), but the coverage and density still need further improvements.…”

Section: Repetitive Sequences Analysismentioning

confidence: 99%

BAC end sequencing of Pacific white shrimp Litopenaeus vannamei: a glimpse into the genome of Penaeid shrimp

Zhao

Zhang

Huan

et al. 2011

Chin. J. Ocean. Limnol.

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Little is known about the genome of Pacifi c white shrimp ( Litopenaeus vannamei ). To address this, we conducted BAC (bacterial artifi cial chromosome) end sequencing of L . vannamei . We selected and sequenced 7 812 BAC clones from the BAC library LvHE from the two ends of the inserts by Sanger sequencing. After trimming and quality fi ltering, 11 279 BAC end sequences (BESs) including 4 609 pairedends BESs were obtained. The total length of the BESs was 4 340 753 bp, representing 0.18% of the L . vannamei haploid genome. The lengths of the BESs ranged from 100 bp to 660 bp with an average length of 385 bp. Analysis of the BESs indicated that the L . vannamei genome is AT-rich and that the primary repeats patterns were simple sequence repeats (SSRs) and low complexity sequences. Dinucleotide and hexanucleotide repeats were the most common SSR types in the BESs. The most abundant transposable element was gypsy, which may contribute to the generation of the large genome size of L . vannamei . We successfully annotated 4 519 BESs by BLAST searching, including genes involved in immunity and sex determination. Our results provide an important resource for functional gene studies, map construction and integration, and complete genome assembly for this species.

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A sex-specific linkage map of the white shrimp Penaeus (Litopenaeus) vannamei based on AFLP markers

Cited by 63 publications

References 31 publications

High-Density Linkage Maps and Sex-Linked Markers for the Black Tiger Shrimp (Penaeus monodon)

High-Density Linkage Maps and Sex-Linked Markers for the Black Tiger Shrimp (Penaeus monodon)

A first genetic linkage map of bluegill sunfish (Lepomis macrochirus) using AFLP markers

BAC end sequencing of Pacific white shrimp Litopenaeus vannamei: a glimpse into the genome of Penaeid shrimp

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