Abdur Rahim scite author profile

MYB10.1 and MYB10.3, with bHLH3, are the likely regulators of anthocyanin biosynthesis in peach fruit. MYB10.1/2/3 forms a cluster on the same genomic fragment where the Anther color ( Ag ) trait is located. Anthocyanins are bioactive compounds responsible for the pigmentation of many plant parts such as leaves, flowers, fruits and roots, and have potential benefits to human health. In peach [Prunus persica (L.) Batsch], peel color is a key determinant for fruit quality and is regulated by flavonoids including anthocyanins. The R2R3 MYB transcription factors (TFs) control the expression of anthocyanin biosynthetic genes with the help of co-activators belonging to the basic-helix-loop-helix (bHLH) and WD40 repeat families. In the peach genome six MYB10-like and three bHLH-like TFs were identified as candidates to be the regulators of the anthocyanin accumulation, which, in yellow flesh fruits, is highest in the peel, abundant in the part of the mesocarp surrounding the stone and lowest in the mesocarp. The expression of MYB10.1 and MYB10.3 correlates with anthocyanin levels of different peach parts. They also have positive correlation with the expression of key structural genes of the anthocyanin pathway, such as CHS, F3H, and UFGT. Functions of peach MYB10s were tested in tobacco and shown to activate key genes in the anthocyanin pathway when bHLHs were co-expressed as partners. Overexpression of MYB10.1/bHLH3 and MYB10.3/bHLH3 activated anthocyanin production by up-regulating NtCHS, NtDFR and NtUFGT while other combinations were not, or much less, effective. As three MYB10 genes are localized in a genomic region where the Ag trait, responsible for anther pigmentation, is localized, it is proposed they are key determinant to introduce new peach cultivars with higher antioxidant level and pigmented fruit.

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Genetic landscape of the people of India: a canvas for disease gene exploration

Brahmachari¹,

Majumder²,

Mukerji³

et al. 2008

J Genet

256

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Analyses of frequency profiles of markers on disease or drug-response related genes in diverse populations are important for the dissection of common diseases. We report the results of analyses of data on 405 SNPs from 75 such genes and a 5.2 Mb chromosome, 22 genomic region in 1871 individuals from diverse 55 endogamous Indian populations. These include 32 large (>10 million individuals) and 23 isolated populations, representing a large fraction of the people of India. We observe high levels of genetic divergence between groups of populations that cluster largely on the basis of ethnicity and language. Indian populations not only overlap with the diversity of HapMap populations, but also contain population groups that are genetically distinct. These data and results are useful for addressing stratification and study design issues in complex traits especially for heterogeneous populations.

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EFFECT OF SPACING ON THE GROWTH AND YIELD OF SWEET PEPPER (Capsicum annuum L.)

Islam¹,

Saha²,

Akand³

et al. 2011

JCEA

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A field experiment was carried out at the Horticultural farm of the Bangladesh Agricultural Research Institute (BARI), Joydebpur, Gazipur, during September 2006 to April 2007 to investigate growth and yield of sweet pepper as influenced by spacing. There were three levels of spacing viz. 50×50 cm, 50×40 cm, 50×30 cm. The experiment was laid out in a Randomized Complete Block Design (RCBD) with three replications. Data were recorded on various parameters and subjected to statistical analysis. The plant spacing had significant variation in almost all the growth and yield components except pericarp thickness. Number of branches per plant, number of leaves per plant, stem girth, number of fruits per plant, days to first harvest, fruit length, individual fruit weight, yield per plant were found to be significantly increased with the increasing of plant spacing but plant height at different stages, number of fruits per plot, days to 50% flowering, fruit breadth, yield per plot and yield per hectare were found to be significantly increased with the decreasing plant spacing. Considering the yield of fruits per hectare, cost of production and net return, 50×30cm spacing appeared to be recommendable for the cultivation of sweet pepper.

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Genome-Wide Characterization of NBS-Encoding Genes in Watermelon and Their Potential Association with Gummy Stem Blight Resistance

Hassan

Rahim

Jung

et al. 2019

IJMS

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Watermelon (Citrullus lanatus) is a nutritionally rich and economically important horticultural crop of the Cucurbitaceae family. Gummy stem blight (GSB) is a major disease of watermelon, which is caused by the fungus Didymella bryoniae, and results in substantial economic losses in terms of yield and quality. However, only a few molecular studies have focused on GSB resistance in watermelon. Nucleotide binding site (NBS)-encoding resistance (R) genes play important roles in plant defense responses to several pathogens, but little is known about the role of NBS-encoding genes in disease resistance in watermelon. The analyzed NBS-encoding R genes comprises several domains, including Toll/interleukin-1 receptor(TIR), NBS, leucine-rich repeat (LRR), resistance to powdery mildew8(RPW8) and coiled coil (CC), which are known to be involved in disease resistance. We determined the expression patterns of these R genes in resistant and susceptible watermelon lines at different time points after D. bryoniae infection by quantitative RT-PCR. The R genes exhibited various expression patterns in the resistant watermelon compared to the susceptible watermelon. Only six R genes exhibited consistent expression patterns (Cla001821, Cla019863, Cla020705, Cla012430, Cla012433 and Cla012439), which were higher in the resistant line compared to the susceptible line. Our study provides fundamental insights into the NBS-LRR gene family in watermelon in response to D. bryoniae infection. Further functional studies of these six candidate resistance genes should help to advance breeding programs aimed at improving disease resistance in watermelons.

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Gummy Stem Blight Resistance in Melon: Inheritance Pattern and Development of Molecular Markers

Hassan

Rahim

Natarajan

et al. 2018

IJMS

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Gummy stem blight (GSB) causes enormous losses to melon (Cucumis melo L.) production worldwide. We aimed to develop useful molecular markers linked to GSB resistance. In this study, 168 F2 plants were obtained from the F1 population of a cross between the GSB-susceptible ‘Cornell ZPPM 339’ and the GSB-resistant ‘PI482399’ lines. A 3:1 ratio of susceptible and resistant genotypes was observed in the F2 population, indicating control by a single recessive gene. Nucleotide-binding site leucine-rich repeat (NBS-LRR) genes confer resistance against insects and diseases in cucurbits including melon. We cloned and sequenced the TIR-NBS-LRR-type resistance gene MELO3C022157, located on melon chromosome 9, from resistant and susceptible lines. Sequence analysis revealed deletions in the first intron, a 2-bp frameshift deletion from the second exon and a 7-bp insertion in the 4th exon of the resistant line. We developed two insertion/deletion (InDel) markers, GSB9-kh-1 and GSB9-kh-2, which were found in the first intron of MELO3C022157 linked to GSB resistance. We validated these markers with the F2 population and inbred lines. These InDels may be used to facilitate marker-assisted selection of GSB resistance in melon. However, functional analysis of overexpressing and/or knock-down mutants is needed to confirm the frameshift mutation.

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Screening of Cabbage (Brassica oleracea L.) Germplasm for Resistance to Black Rot

Afrin¹,

Rahim²,

Park³

et al. 2018

Plant Breed. Biotech.

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Identification of NBS-encoding genes linked to black rot resistance in cabbage (Brassica oleracea var. capitata)

et al. 2018

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Heading cabbage is a nutritionally rich and economically important cruciferous vegetable. Black rot disease, caused by the bacterium Xanthomonas campestris pv. campestris, reduces both the yield and quality of the cabbage head. Nucleotide binding site (NBS)-encoding resistance (R) genes play a vital role in the plant immune response to various pathogens. In this study, we analyzed the expression and DNA sequence variation of 31 NBS-encoding genes in cabbage (Brassica oleracea var. capitata). These genes encoded TIR, NBS, LRR and RPW8 protein domains, all of which are known to be involved in disease resistance. RNA-seq revealed that these 31 genes were differentially expressed in leaf, root, silique, and stem tissues. Furthermore, qPCR analyses revealed that several of these genes were more highly expressed in resistant compared to susceptible cabbage lines, including Bol003711, Bol010135, Bol010559, Bol022784, Bol029866, Bol042121, Bol031422, Bol040045 and Bol042095. Further analysis of these genes promises to yield both practical benefits, such as molecular markers for marker-assisted breeding, and fundamental insights to the mechanisms of resistance to black rot in cabbage.

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Fleshy seeds form in the basal Angiosperm Magnolia grandiflora and several MADS‐box genes are expressed as fleshy seed tissues develop

Lovisetto

Masiero

Rahim

et al. 2015

Evolution and Development

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One successful mechanism of seed dispersal in plants involves production of edible fleshy structures which attract frugivorous animals and transfer this task to them. Not only Angiosperms but also Gymnosperms may use the fleshy fruit habit for seed dispersal, and a similar suite of MADS-box genes may be expressed as these structures form. Magnolia grandiflora produces dry follicles which, at maturity, open to reveal brightly colored fleshy seeds. This species thus also employs endozoochory for seed dispersal, although it produces dry fruits. Molecular analysis reveals that genes involved in softening and color changes are expressed at late stages of seed development, when the fleshy seed sarcotesta softens and accumulates carotenoids. Several MADS-box genes have also been studied and results highlight the existence of a basic genetic toolkit which may be common to all fleshy fruit-like structures, independently of their anatomic origin. According to their expression patterns, one of two AGAMOUS genes and the three SEPALLATA genes known so far in Magnolia are of particular interest. Duplication of AGAMOUS already occurs in both Nymphaeales and Magnoliids, although the lack of functional gene analysis prevents comparisons with known duplications in the AGAMOUS lineage of core Eudicots.

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Abdur Rahim

Regulation of anthocyanin biosynthesis in peach fruits

Genetic landscape of the people of India: a canvas for disease gene exploration

EFFECT OF SPACING ON THE GROWTH AND YIELD OF SWEET PEPPER (Capsicum annuum L.)

Genome-Wide Characterization of NBS-Encoding Genes in Watermelon and Their Potential Association with Gummy Stem Blight Resistance

Gummy Stem Blight Resistance in Melon: Inheritance Pattern and Development of Molecular Markers

Screening of Cabbage (Brassica oleracea L.) Germplasm for Resistance to Black Rot

Identification of NBS-encoding genes linked to black rot resistance in cabbage (Brassica oleracea var. capitata)

Fleshy seeds form in the basal Angiosperm Magnolia grandiflora and several MADS‐box genes are expressed as fleshy seed tissues develop

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