mQTL-seq delineates functionally relevant candidate gene harbouring a major QTL regulating pod number in chickpea

Shouvik Das; Mohar Singh; Rishi Srivastava; Deepak Bajaj; Maneesha S Saxena; Jai C Rana; Kailash C Bansal; Akhilesh K Tyagi; Swarup K Parida

doi:10.1093/dnares/dsv036

mQTL-seq delineates functionally relevant candidate gene harbouring a major QTL regulating pod number in chickpea

DNA Res. 2016 Feb;23(1):53-65. doi: 10.1093/dnares/dsv036. Epub 2015 Dec 19.

Authors

Shouvik Das¹, Mohar Singh², Rishi Srivastava¹, Deepak Bajaj¹, Maneesha S Saxena¹, Jai C Rana³, Kailash C Bansal³, Akhilesh K Tyagi¹, Swarup K Parida⁴

Affiliations

¹ National Institute of Plant Genome Research (NIPGR), New Delhi 110067, India.
² National Bureau of Plant Genetic Resources Regional Station, Shimla, Himachal Pradesh 171004, India.
³ National Bureau of Plant Genetic Resources (NBPGR), New Delhi 110012, India.
⁴ National Institute of Plant Genome Research (NIPGR), New Delhi 110067, India swarup@nipgr.ac.in swarupdbt@gmail.com.

Abstract

The present study used a whole-genome, NGS resequencing-based mQTL-seq (multiple QTL-seq) strategy in two inter-specific mapping populations (Pusa 1103 × ILWC 46 and Pusa 256 × ILWC 46) to scan the major genomic region(s) underlying QTL(s) governing pod number trait in chickpea. Essentially, the whole-genome resequencing of low and high pod number-containing parental accessions and homozygous individuals (constituting bulks) from each of these two mapping populations discovered >8 million high-quality homozygous SNPs with respect to the reference kabuli chickpea. The functional significance of the physically mapped SNPs was apparent from the identified 2,264 non-synonymous and 23,550 regulatory SNPs, with 8-10% of these SNPs-carrying genes corresponding to transcription factors and disease resistance-related proteins. The utilization of these mined SNPs in Δ (SNP index)-led QTL-seq analysis and their correlation between two mapping populations based on mQTL-seq, narrowed down two (Caq(a)PN4.1: 867.8 kb and Caq(a)PN4.2: 1.8 Mb) major genomic regions harbouring robust pod number QTLs into the high-resolution short QTL intervals (Caq(b)PN4.1: 637.5 kb and Caq(b)PN4.2: 1.28 Mb) on chickpea chromosome 4. The integration of mQTL-seq-derived one novel robust QTL with QTL region-specific association analysis delineated the regulatory (C/T) and coding (C/A) SNPs-containing one pentatricopeptide repeat (PPR) gene at a major QTL region regulating pod number in chickpea. This target gene exhibited anther, mature pollen and pod-specific expression, including pronounced higher up-regulated (∼3.5-folds) transcript expression in high pod number-containing parental accessions and homozygous individuals of two mapping populations especially during pollen and pod development. The proposed mQTL-seq-driven combinatorial strategy has profound efficacy in rapid genome-wide scanning of potential candidate gene(s) underlying trait-associated high-resolution robust QTL(s), thereby expediting genomics-assisted breeding and genetic enhancement of crop plants, including chickpea.

Keywords: SNP; chickpea; mQTL-seq; pod number; wild accessions.

Publication types

Research Support, Non-U.S. Gov't

MeSH terms

Chromosome Mapping
Cicer / genetics*
Genome, Plant*
Polymorphism, Single Nucleotide
Quantitative Trait Loci*