Construction of a high‐density linkage map and QTL detection for growth traits in South African abalone (Haliotis midae)

Author:

Tshilate Thendo Stanley1,Ishengoma Edson12,Rhode Clint1ORCID

Affiliation:

1. Department of Genetics Stellenbosch University Matieland South Africa

2. Mkwawa University College of Education University of Dar es Salaam Iringa Tanzania

Abstract

AbstractHaliotis midae is one of the most important molluscs in South African commercial aquaculture. In this study, a high‐resolution integrated linkage map was constructed, and QTL identified using 2b‐RADseq for genotyping SNPs in three families. The final integrated linkage map was composed by merging the individual family maps, resulting in 3290 informative SNPs mapping to 18 linkage groups, conforming to the known haploid chromosome number for H. midae. The total map spanned 1798.25 cM with an average marker interval of 0.55 cM, representing a genome coverage of 98.76%. QTL analysis, across all three families, resulted in a total of five QTL identified for growth‐related traits, shell width, shell length, and total body weight. For shell width and total body weight, one QTL was identified for each trait respectively, whilst three QTL were identified for shell length. The identified QTL respectively explained between 7.20% and 11.40% of the observed phenotypic variance. All three traits were significantly correlated (r = 0.862–0.970; p < 0.01) and shared overlapping QTL. The QTL for growth traits were mapped back to the H. midae draft genome and BLAST searches revealed the identity of candidate genes, such as egf‐1, megf10, megf6, tnx, sevp1, kcp, notch1, and scube2 with possible functional roles in H. midae growth. The constructed high‐density linkage map and mapped QTL have given valuable insights regarding the genetic architecture of growth‐related traits and will be important genetic resources for marker‐assisted selection. It remains, however, important to validate causal variants through linkage disequilibrium fine mapping in future.

Funder

National Research Foundation

Publisher

Wiley

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