Marker-Assisted Selection to Pyramid the Opaque-2 (O2) and β-Carotene (crtRB1) Genes in Maize.

Sarankumar Chandran,Kokiladevi Eswaran,Senthil Natesan,Vignesh Muthusamy,Laishram Joikumar Meetei,Karthikeyan Adhimoolam,Bharathi Pukalenthy,Vanniarajan Chocklingam,Kavithapushpam Arunachalam,Ravikesavan Rajasekaran,Dhasarathan Manickam,Firoz Hossain,Vellaikumar Sampathrajan

doi:10.3389/fgene.2019.00859

Sarankumar Chandran, Kokiladevi Eswaran + Show 11 more

Open Access

https://doi.org/10.3389/fgene.2019.00859

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Abstract

Maize is an excellent nutritional source and is consumed as a staple food in different parts of the world, including India. Developing a maize genotype with a combination of higher lysine and tryptophan, along with β-carotene, can help alleviate the problem of protein-energy malnutrition (PEM) and vitamin A deficiency (VAD). This study is aimed at improving lysine and tryptophan content by transferring opaque-2 (o2) gene from donor HKI163 to β-carotene-rich inbred lines viz., UMI1200β+ and UMI1230β+. For this purpose, F1, BC1F1, BC2F1, BC2F2, and BC2F3 plants were developed using an o2 line HKI163 and two β-carotene-rich inbred lines, UMI1200β+ and UMI1230β+, as the parents. Foreground selection using the associated marker umc1066 for the o2 gene and the marker crtRB1 3′TE for the crtRB1 gene was used to select the target genes. A total of 236 simple sequence repeat (SSR) markers distributed evenly across the maize genome were employed for the background selection. To fix the crtRB1 allele in the BC1F1 stage, individual plants homozygous at the crtRB1 locus and heterozygous at the o2 locus were selected and used for backcrossing to produce BC2F1 plants. Furthermore, the selected heterozygous BC2F1 plants from both crosses were selfed to obtain the BC2F2 plants, which were then selected for the target gene and selfed to generate the BC2F3 lines. From each cross, five improved lines with homozygous marker alleles for the crtRB1 and o2 genes with a recurrent parent genome (RPG) recovery ranging from 86.75 to 91.21% in UMI1200β+×HKI163 and 80.00 to 90.08% in UMI1230β+×HKI163 were identified. The improved lines had good agronomic performance and possessed high lysine (0.294–0.332%), tryptophan (0.073–0.081%), and β-carotene (6.12–7.38 µg/g) content. These improved lines can be used as genetic resources for maize improvement.

Highlights

Maize (Zea mays L.) is a staple food crop and currently grown in more than 150 countries, with a total harvest area of approximately 187 million hectares, producing 1138 million tonnes worldwide (FAOSTAT, 2018)
Three simple sequence repeat (SSR) markers, umc1066, phi112, and phi057, located within the o2 gene were investigated for their polymorphisms among the donor HKI163 and the two recurrent parents viz., UMI1200β+ and UMI1230β+
The genetic nature and environmental factors have an influence on these traits. crtRB1 and o2 genes present on chromosomes 10 and 7 (Mertz et al, 1964; Vasal, 2000; Yang et al, 2004) provide increased β-carotene, lysine, and tryptophan contents

Summary

Introduction

Maize (Zea mays L.) is a staple food crop and currently grown in more than 150 countries, with a total harvest area of approximately 187 million hectares, producing 1138 million tonnes worldwide (FAOSTAT, 2018). It has good nutritional value, that is, 68.5% carbohydrates, 8% fat, 4% ash, 3% crude fiber, and 16.5% protein (Ullah et al, 2010). The gene-linked simple sequence repeat (SSR) markers umc1066, phi112, and phi have been used to identify the o2 gene (Yang et al, 2005; Gupta et al, 2013; Surender et al, 2017)

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