Avneesh Kumar scite author profile

Leaf rust disease causes severe yield losses in wheat throughout the world. During the present study, high-throughput RNA-Seq analysis was used to gain insights into the role of Lr28 gene in imparting seedling leaf rust resistance in wheat. Differential expression analysis was conducted using a pair of near-isogenic lines (NILs) (HD 2329 and HD 2329 + Lr28) at early (0 h before inoculation (hbi), 24 and 48 h after inoculation (hai)) and late stages (72, 96 and 168 hai) after inoculation with a virulent pathotype of pathogen Puccinia triticina. Expression of a large number of genes was found to be affected due to the presence/absence of Lr28. Gene ontology analysis of the differentially expressed transcripts suggested enrichment of transcripts involved in carbohydrate and amino acid metabolism, oxidative stress and hormone metabolism, in resistant and/or susceptible NILs. Genes encoding receptor like kinases (RLKs) (including ATP binding; serine threonine kinases) and other kinases were the most abundant class of genes, whose expression was affected. Genes involved in reactive oxygen species (ROS) homeostasis and several genes encoding transcription factors (TFs) (most abundant being WRKY TFs) were also identified along with some ncRNAs and histone variants. Quantitative real-time PCR was also used for validation of 39 representative selected genes. In the long term, the present study should prove useful in developing leaf rust resistant wheat cultivars through molecular breeding.

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Review on Recent Developments in Biocatalysts for Friedel–Crafts Reactions

Kumar

Turnbull

Kumar

2022

ACS Catal.

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The Friedel−Crafts (F−C) reaction has been a fundamental pillar of both academic and industrial synthetic organic chemistry since its discovery in 1873. Its success is based on the versatility and applicability of F−C reactions for a wide range of substrates, and there have been an impressive number of publications and patents describing catalytic F−C reaction methods. The asymmetric version of the reaction was discovered about 100 years after the seminal work by Friedel and Crafts and has become a major area of research. While chemical methods with much-improved efficacies and scopes have been discovered, F−C reactions still suffer from limitations. Biocatalysis has the potential to be the best solution to this challenge because of the excellent selectivity (enantio-, chemo-, and regioselectivity) displayed by enzymes. In the last two decades, advancements in molecular biology techniques, bioinformatics, high-throughput screening, directed evolution, and process scale-up have led to biocatalysis becoming a mature field. It is therefore not surprising that researchers around the globe have developed several biocatalysts for asymmetric F−C reactions. Herein, we review recent developments in the design and use of catalytic and stereoselective strategies for performing the asymmetric F−C reactions.

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De novo Transcriptome Analysis Revealed Genes Involved in Flavonoid and Vitamin C Biosynthesis in Phyllanthus emblica (L.)

Kumar

Bains

et al. 2016

Front. Plant Sci.

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Phyllanthus emblica is an affluent source of various therapeutic components. A few of them like vitamin C and flavonoids are predominant bioactive compounds that are being used in immense pharmacological applications. In-spite of numerous applications, the genomic information of this plant was limited to a few expressed sequence tags (ESTs) in DNA databases. Herein, we developed in-depth transcriptome information of P. emblica using Illumina Hiseq 2000 platform and characterized. A total of 31,285,965 high-quality reads were assembled into 91,288 contigs with the N50 value 358. Out of them, 47,267 contigs were functionally annotated using BLASTX search against NCBI-non-redundant (NR) protein database. Further, 31,366 contigs showed similarity with various gene ontology (GO) terms, and 1299 were related to different enzymes and biosynthetic pathways. We identified the transcripts related to each gene involved in flavonoid and vitamin C biosynthesis. Several cytochrome P450s (CYPs) and glucosyltransferases (GTs) genes involved in flavonoid biosynthesis and various other metabolic pathways were also documented. Further, 6510 transcription factors and 4420 EST derived simple sequence repeat (SSR) markers were also predicted. The present study enlightened various characteristic features of P. emblica genome, and provided an important resource for future molecular and functional genomics studies.

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Avneesh Kumar

Genome-wide identification, characterization, and expression profiling of SPX gene family in wheat

A study of transcriptome in leaf rust infected bread wheat involving seedling resistance gene Lr28

Review on Recent Developments in Biocatalysts for Friedel–Crafts Reactions

De novo Transcriptome Analysis Revealed Genes Involved in Flavonoid and Vitamin C Biosynthesis in Phyllanthus emblica (L.)

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