Abhijit Sanyal
Overview
Explore the profile of Abhijit Sanyal including associated specialties, affiliations and a list of published articles.
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12
Citations
516
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Recent Articles
1.
Ramu P, Srivastava R, Sanyal A, Fengler K, Cao J, Zhang Y, et al.
Commun Biol
. 2023 Sep;
6(1):902.
PMID: 37667032
High-quality reference genome assemblies, representative of global heterotic patterns, offer an ideal platform to accurately characterize and utilize genetic variation in the primary gene pool of hybrid crops. Here we...
2.
Thatcher S, Jung M, Panangipalli G, Fengler K, Sanyal A, Li B, et al.
Mol Plant Pathol
. 2023 Mar;
24(7):742-757.
PMID: 36929631
Plant pathogens cause significant crop loss worldwide, and new resistance genes deployed to combat diseases can be overcome quickly. Understanding the existing resistance gene diversity within the germplasm of major...
3.
Deschamps S, Zhang Y, Llaca V, Ye L, Sanyal A, King M, et al.
Nat Commun
. 2018 Nov;
9(1):4844.
PMID: 30451840
Long-read sequencing technologies have greatly facilitated assemblies of large eukaryotic genomes. In this paper, Oxford Nanopore sequences generated on a MinION sequencer are combined with Bionano Genomics Direct Label and...
4.
Gaeta R, Masonbrink R, Zhao C, Sanyal A, Krishnaswamy L, Birchler J
Chromosoma
. 2013 Mar;
122(3):221-32.
PMID: 23519820
Engineered minichromosomes provide efficient platforms for stacking transgenes in crop plants. Methods for modifying these chromosomes in vivo are essential for the development of customizable systems for the removal of...
5.
Birchler J, Sun L, Fernandez H, Donohue R, Xie W, Sanyal A
J Genet Genomics
. 2011 Aug;
38(8):327-32.
PMID: 21867958
A set of proteins and noncoding RNAs, referred to as the male specific lethal (MSL) complex, is present on the male X chromosome in Drosophila and has been postulated to...
6.
Sanyal A, Ammiraju J, Lu F, Yu Y, Rambo T, Currie J, et al.
Mol Biol Evol
. 2010 Jun;
27(11):2487-506.
PMID: 20522726
Heading date is one of the most important quantitative traits responsible for the domestication of rice. We compared a 155-kb reference segment of the Oryza sativa ssp. japonica cv. Nipponbare...
7.
Ammiraju J, Fan C, Yu Y, Song X, Cranston K, Pontaroli A, et al.
Plant J
. 2010 May;
63(3):430-42.
PMID: 20487382
Despite knowledge that polyploidy is widespread and a major evolutionary force in flowering plant diversification, detailed comparative molecular studies on polyploidy have been confined to only a few species and...
8.
Lu F, Ammiraju J, Sanyal A, Zhang S, Song R, Chen J, et al.
Proc Natl Acad Sci U S A
. 2009 Jan;
106(6):2071-6.
PMID: 19164767
Comparative genomics is a powerful tool to decipher gene and genome evolution. Placing multiple genome comparisons in a phylogenetic context improves the sensitivity of evolutionary inferences. In the genus Oryza,...
9.
Ammiraju J, Lu F, Sanyal A, Yu Y, Song X, Jiang N, et al.
Plant Cell
. 2008 Dec;
20(12):3191-209.
PMID: 19098269
Oryza (23 species; 10 genome types) contains the world's most important food crop - rice. Although the rice genome serves as an essential tool for biological research, little is known...
10.
Piegu B, Guyot R, Picault N, Roulin A, Sanyal A, Saniyal A, et al.
Genome Res
. 2006 Sep;
16(10):1262-9.
PMID: 16963705
Retrotransposons are the main components of eukaryotic genomes, representing up to 80% of some large plant genomes. These mobile elements transpose via a "copy and paste" mechanism, thus increasing their...