Phytoremediation of hexavalent chromium by mung bean through bio-accumulation and bio-stabilization in a short duration

Yu, Chen; Hu, Wenyuan; Li, P.; Liu, Y.; Chen, X.; Xie, Huanhuan; Wang, J.; Xie, Yifan; Wang, Y.; Zhang, Y.

doi:10.1007/s13762-020-03001-7

Cited by 12 publications

(2 citation statements)

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“…However, PIC values for co-dominant markers generally range from 0 (monomorphic) to 1 (very highly informative) (Serrote et al, 2020). Results obtained from the present study revealed that, the PIC values of the markers were found between 0 to 1, which was similar to previous research finding in mung bean (Chen et al, 2021;Dash et al, 2022;Sahoo et al, 2020a). However, the present investigation on trait-based genetic diversity is almost similar to the earlier findings (Sushmita et al, 2021;Sahoo et al, 2020b; of moderate genetic diversity reported in mung bean for the single trait.…”

Section: Polymorphism Information Content (Pic) Valuessupporting

confidence: 89%

“…Mung bean [Vigna radiata (L.) W ilczek] is a popular commercial species of the genus Vigna and its production is steadily increasing in South and Southeast Asia. It is a popular legume because of its short-life cycle (Chen et al, 2021). Mung bean has valuable nutritional and health benefits due to its high digestibility, Vitamin B and protein content (Chand et al, 2015).…”

Section: Introductionmentioning

confidence: 99%

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Assessment of Genetic Diversity for Cercospora Leaf Spot (CLS) Resistance in Mung Bean [Vigna radiata (L.) Wilczek] using SSR Markers

Sahoo

Samal

Lenka

et al. 2022

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Background: CLS causes severe yield loss in mung bean. To sustain mung bean health, it is vital to include alleles that may be useful in resisting CLS. Therefore, in the present study, 90 mung bean genotypes were included for assessing genetic diversity using 66 SSR markers for CLS resistance. Methods: The mung bean crop was regularly monitored for the presence of pathogen and development of CLS disease in natural field conditions during pre rabi 2018 and pre rabi 2019. CLS screening assessments of germplasms were carried out using a 1-5 rating scale. Total genomic DNA was isolated from the leaf samples of all the genotypes and SSR genotyping was performed. The genotyping data were analysed by using GenAlEx 6.51b2 and TASSEL 5.0 software programme for genetic diversity parameters. Result: A moderate molecular diversity was observed in the panel population as a wide variation in alleles showed a range of 80 bp to 300 bp with the average PIC value of 0.40. The maximum percentage of polymorphic loci was 75.76% in the resistance genotypes followed by 56.06% in moderately resistant genotypes. The percentages of Shannon information among and within the population were found to be 44% and 56%, respectively. The archaeopterx tree differentiated the panel population into two major clusters, i.e., cluster I and cluster II, which were again sub divided into different sub-clusters and sub-sub clusters. These findings indicate that, the mung bean germplasm panel used in the present study could enrich the local gene pool and provide information for CLS resistance breeding.

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