Abstract
Vine growth habit (VGH) is a beneficial phenotype in many wild plants, and is considered an important domesticated-related trait in soybean. However, its genetic basis remains largely unclear. Hence, in the present study we used an integrated strategy combining linkage mapping and population genome diversity analyses to reveal the genetics of VGH in soybean. In this regard, two recombinant inbred line (RIL) populations derived by crossing a common wild soybean genotype (PI342618B) with two cultivated lines viz., NN 86-4 and NN 493-1 were used to map quantitative trait loci (QTL) for VGH. Here, we identified seven and five QTLs at flowering stage (R1) and maturity stage (R8), respectively, and among them qVGH-18-1, qVGH-18-2, qVGH-19-3, qVGH-19-4 were identified as major loci (R2 > 10% and detection time ≥2). However, qVGH-18-2 was considered as a main QTL for VGH being consistently identified in both RIL populations as well as all growth stages and cropping years. Out of all the annotated genes within qVGH-18-2, Glyma18g06870 was identified as the candidate gene and named as VGH1, which was a gibberellin oxidase (GAox) belongs to 2-oxoglutarate-dependent dioxygenase (2- ODD). Interestingly, there was one member of 2-ODD/GAox in qVGH-18-1 and qVGH-19-4 named as VGH2 and VGH3, respectively. Moreover, from sequencing data analysis VGH1 and three other GAox genes were found significantly divergent between vine and erect soybean with FST value larger than 0.25. Hence, GAox was assumed to play a major role in governing inheritance of VGH in soybean. Therefore, elucidating the genetic mechanism of GAox is very useful for exploring VGH and other stem traits, as well as genetic improvement of plant type in soybean.
Highlights
Annual wild soybean (Glycine soja Sieb. & Zucc.) is an ancient species of cultivated soybean (Glycine max L.)
The present study was the first detailed investigation of vine growth habit (VGH) in soybean, where we used an integrated strategy combining linkage mapping and population genome diversity analyses to reveal the genetics of VGH in soybean
We identified four major quantitative trait loci (QTL) viz., qVGH-18-1, qVGH-18-2, qVGH-19-3 and qVGH-19-4, among which qVGH18-2 was considered as a main QTL being consistently identified in both recombinant inbred line (RIL) populations as well as all growth stages and cropping years
Summary
Annual wild soybean (Glycine soja Sieb. & Zucc.) is an ancient species of cultivated soybean (Glycine max L.). & Zucc.) is an ancient species of cultivated soybean (Glycine max L.) It has many useful traits including high protein content, small seed size and resistance to biotic as well as abiotic stresses, which are very important for soybean crop improvement[1]. Vine growth in wild soybean is characterized with the slender and twining stem on some supports during plant growth. Vine growth is an adaptation characteristic for climbing plants with some advantages of plant dispersal, water transport, growth and survivor in natural environments[4] It is a complicated trait involving many morphological characteristics. Vine growth habit (VGH) has three forms viz., Type I (determinate bush), Type II (indeterminate upright), and Type III (indeterminate vine)[6], indicating the importance of both stem termination type and twining degree for VGH. GA20ox and GA3ox produce bioactive GAs while GA2ox transforms them into non-bioactive GAs
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