通过在水稻（Oryza sativa L.）中利用标记辅助回交育种对 RPHR-1005R 和衍生杂交水稻杂种进行生殖阶段干旱耐性的遗传增强。

Genetic enhancement of reproductive stage drought tolerance in RPHR-1005R and derivative rice hybrids through marker-assisted backcross breeding in rice (Oryza sativa L.).

机构信息

Crop Improvement Section, ICAR-Indian Institute of Rice Research, Hyderabad, 500030, India.

Biotechnology Department, Jawaharlal Nehru Technological University (JNTU-H), Hyderabad, 500085, India.

出版信息

Mol Biol Rep. 2024 Mar 18;51(1):426. doi: 10.1007/s11033-024-09351-6.

DOI:10.1007/s11033-024-09351-6

PMID:38498081

Abstract

BACKGROUND

Drought stress is considered as one of the major production constraints in rice. RPHR-1005R is a restorer line (R-Line) with a popular, medium-slender grain type, and is the male parent of the popular Indian rice hybrid, DRR-H3. However, both the hybrid and its restorer are highly vulnerable to the drought stress, which limits the adoption of the hybrid. Therefore, the selection of the restorer line RPHR-1005R has been made with the objective of enhancing drought tolerance.

METHODS AND RESULTS

In this study, we have introgressed a major QTL for grain yield under drought (qDTY 1.1) from Nagina22 through a marker-assisted backcross breeding (MABB) strategy. PCR based SSR markers linked to grain yield under drought (qDTY1.1 - RM431, RM11943), fertility restorer genes (Rf3-DRRM-Rf3-10, Rf4-RM6100) and wide compatibility (S5 allele) were deployed for foreground selection. At BCF, a single plant (RPHR6339-4-16-14) with target QTL in heterozygous condition and with the highest recurrent parent genome recovery (85.41%) and phenotypically like RPHR-1005R was identified and selfed to generate BCF. Fifty-eight homozygous lines were advanced to BCF and six promising restorer lines and a hybrid combination (APMS6A/RPHR6339-4-16-14-3) were identified.

CONCLUSIONS

In summary, the six improved restorer lines could be employed for developing heterotic hybrids possessing reproductive stage drought tolerance. The hybrid combination (APMS6A/RPHR6339-4-16-14-3) was estimated to ensure stable yields in drought-prone irrigated lowlands as well as in directly seeded aerobic and upland areas of India.

摘要

背景

干旱胁迫被认为是水稻生产的主要限制因素之一。RPHR-1005R 是一个恢复系（R 系），具有流行的中长粒型，是印度流行水稻杂交种 DRR-H3 的父本。然而，杂交种及其恢复系都非常容易受到干旱胁迫的影响，这限制了杂交种的采用。因此，选择 RPHR-1005R 恢复系的目的是提高其耐旱性。

方法和结果

在这项研究中，我们通过标记辅助回交育种（MABB）策略，从 Nagina22 导入了一个主要的耐旱条件下的粒产量 QTL（qDTY 1.1）。与耐旱条件下的粒产量相关的 PCR 基于 SSR 标记（qDTY1.1-RM431、RM11943）、育性恢复基因（Rf3-DRRM-Rf3-10、Rf4-RM6100）和广泛的兼容性（S5 等位基因）被用于前景选择。在 BCF 代，一个具有杂合状态下目标 QTL 的单株（RPHR6339-4-16-14），并且具有最高的轮回亲本基因组回收率（85.41%）和表型类似于 RPHR-1005R，被鉴定出来并自交产生 BCF。58 个纯合系被推进到 BCF 代，鉴定出了六个有前途的恢复系和一个杂交组合（APMS6A/RPHR6339-4-16-14-3）。

结论

综上所述，这六个改良的恢复系可用于开发具有生殖期耐旱性的杂种优势杂交种。杂交组合（APMS6A/RPHR6339-4-16-14-3）估计可以确保在印度易受干旱影响的灌溉低地以及直接播种的有氧和旱地地区稳定产量。

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通过在水稻（Oryza sativa L.）中利用标记辅助回交育种对 RPHR-1005R 和衍生杂交水稻杂种进行生殖阶段干旱耐性的遗传增强。

Genetic enhancement of reproductive stage drought tolerance in RPHR-1005R and derivative rice hybrids through marker-assisted backcross breeding in rice (Oryza sativa L.).

机构信息

出版信息

BACKGROUND

METHODS AND RESULTS

CONCLUSIONS

背景

方法和结果

结论

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