QTL for Main Stem Node Number and Its Response to Plant Densities in 144 Soybean FW-RILs

Li, Wenxia; Wang, Ping; Zhao, Hengxing; Sun, Xu; Yang, Tao; Li, Haoran; Hou, Yongqin; Liu, Cuiqiao; Siyal, Mahfishan; Veesar, Rameez Raja; Hu, Bo; Ning, Hailong

doi:10.3389/fpls.2021.666796

Cited by 5 publications

(1 citation statement)

References 59 publications

(79 reference statements)

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“…The number of stem node in the Grobogan variety decreased with increasing irradiation dose, resulting in a decrease in the number of leaves and branches. This is consistent with studies that have identified main stem node number as an important yield-related trait in soybeans, with variations observed across different plant densities and environments [17].…”

Section: Vegetative Characteristics Of M1 Soybean Mutants In Field Ex...supporting

confidence: 92%

Effects of gamma-ray irradiation dose and dose rates on the growth and radiosensitivity of soybean varieties Grobogan and Mutiara 1

Iqbal,

Anisiyah,

Rahmawati

et al. 2024

IOP Conf. Ser.: Earth Environ. Sci.

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Enhancing soybean production can be achieved through plant breeding, utilizing gamma ray radiation mutation techniques to develop superior varieties. Understanding radiosensitivity is crucial for comprehending the impact of radiation on plant morphology and physiology. This study aims to investigate the impacts of varying doses and dose rates of Cobalt-60 gamma radiation on the growth and development of two soybean varieties, Grobogan and Mutiara 1. This study was conducted to understand how varied radiation doses influence growth parameters and to determine the radiosensitivity, LD50 value, in mutants of the Grobogan and Mutiara 1 soybean varieties. The study employed a randomized complete design with two factors. The first factor was radiation dose ranging from 0 to 1000 Gy. The second factor was dose rate, categorized into low dose rate (219.5 Gy/hour) and high dose rate (4470.2 Gy/hour). The results revealed that the LD50 value of Grobogan variety was estimated at 588.56 Gy at a low dose rate and 657.17 Gy at a high dose rate, while the Mutiara 1 variety had an LD50 value estimate of 512.36 Gy at a low dose rate and 514.30 Gy at a high dose rate. The study also found that the gamma ray radiation dose in the seedling phase trial influenced several growth parameters, including germination percentage, seedling height, development of stem nodes, and formation of leaves. Furthermore, field phase trial showed that a range of radiation dose at 100-300 Gy led to an increase in the number of branches in both soybean varieties and plant height in the Grobogan variety. It also resulted in an increase in the production of pods and total weight of seeds in the Mutiara 1 variety. These findings offer valuable insights into optimizing radiation doses for increasing genetic diversity in soybean.

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Section: Vegetative Characteristics Of M1 Soybean Mutants In Field Ex...supporting

confidence: 92%

Effects of gamma-ray irradiation dose and dose rates on the growth and radiosensitivity of soybean varieties Grobogan and Mutiara 1

Iqbal,

Anisiyah,

Rahmawati

et al. 2024

IOP Conf. Ser.: Earth Environ. Sci.

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Dissecting genetic variation and association mapping for agro-morphological traits under high temperature stress in pea (Pisum sativum L.)

Zanetta,

Gali,

Rafii

et al. 2024

Euphytica

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The Critical Roles of Phosphatidylethanolamine‐Binding Proteins in Legumes

Su,

Wu,

Fang

et al. 2024

Plant Cell & Environment

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Legumes, characterized by their ability to form symbiotic relationships with nitrogen‐fixing bacteria, play crucial roles in agriculture, ecology and human nutrition. Phosphatidylethanolamine‐binding proteins (PEBPs) are the key genetic players that contribute to the diverse biological functions of legumes. In this review, we summarize the current understanding of important roles of PEBP genes in legumes, including flowering, inflorescence architecture, seed development and nodulation. We also delve into PEBP regulatory mechanisms and effects on plant growth, development, and adaptation to the environment. Furthermore, we highlight their potential biotechnological applications for crop improvement and promoting sustainable agriculture. This review emphasizes the multifaceted roles of PEBP genes, shedding light on their significance in legume biology and their potential for sustainable productive farming.

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QTL for Main Stem Node Number and Its Response to Plant Densities in 144 Soybean FW-RILs

Cited by 5 publications

References 59 publications

Effects of gamma-ray irradiation dose and dose rates on the growth and radiosensitivity of soybean varieties Grobogan and Mutiara 1

Effects of gamma-ray irradiation dose and dose rates on the growth and radiosensitivity of soybean varieties Grobogan and Mutiara 1

Dissecting genetic variation and association mapping for agro-morphological traits under high temperature stress in pea (Pisum sativum L.)

The Critical Roles of Phosphatidylethanolamine‐Binding Proteins in Legumes

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