Sarabindu Roy
Indian Institute of Chemical Technology
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Publication
Featured researches published by Sarabindu Roy.
New Journal of Chemistry | 2007
Rajiv Trivedi; Sarabindu Roy; Moumita Roy; B. Sreedhar; M. Lakshmi Kantam
A 3-aminopropyl-functionalized silica-supported rhodium(0) catalyst (SiO2–Rh0) was prepared and employed in the Heck-type coupling of arylboronic acids and alkenes, affording good-to-excellent yields of substituted alkenes; the catalyst was recovered by filtration and reused for several cycles.
Synthetic Communications | 2008
Rajiv Trivedi; P. Lalitha; Sarabindu Roy
Abstract Vanadyl(IV) acetate [VO(OAc)2] efficiently catalyzes the conjugate addition of aliphatic, aromatic amines to α,β-unsaturated carbonyl compounds in solvent-free media at room temperature to afford corresponding amino compounds in good to excellent yields. The catalyst can be recovered and reused for further cycles.
Canadian Journal of Biotechnology | 2017
Chetan Bhanot; Navajeet Chakravartty; Neethu Divakaran; P. E. Rabins; Boney Kuriakose; Sivarama Prasad Lekkala; Krishna Mohan; V.B. Reddy Lachagari; Inderjeet Kumar; Sarabindu Roy
Rice is the primary source of dietary energy for half of the World population, and 90% of them are present in developing countries in Asia. We have sequenced three local rice varieties Chenga, Tulai-panji, Kalonunia and compared with Oryza sativa cv. Nipponbare, Oryza sativa cv. 93-11 and Oryza sativa cv.Kasalath. 30X paired end 2 X 100 bp reads were generated for each of the 3 samples on Illumina HiSeq 4000, next generation sequencing platform. The raw data was subjected to pre-processing and aligned with reference genomes individually. The SNPs/INDELs were identified for each of the 3 local rice varieties with the each reference genome. A total of 0.15, 0.34 and 0.57 million SNPs and 10863, 11435 and 21841 INDELs were identified in Chenga, compared to Oryza sativa cv. Nipponbare, Oryza sativa cv. 93-11 and Oryza sativa cv.Kasalath, respectively. In Tulaipanji, 0.23, 0.76 and 0.71 SNPs as well as 12854, 18987 and 22901 INDELs were identified when compared to MSU7, 93-11 and Kasalath assemblies respectively. Analysis of Kalonunia data revealed 0.24, 0.58 and 0.54 SNPs and 10775, 14281 and 16657 INDELs against 3 reference genomes as above. We investigated for homozygous polymorphic markers between Chenga (Non aromatic) and Tulai-panji (Aromatic), and found 38,471 SNPs at read depth of 10. Similarly, comparative analysis between Chenga (Non aromatic) and Kalonunia (Aromatic) 130,376 homozygous polymorphic markers which can be explored for mapping novel alleles associated with aroma. Citation: Bhanot, C., Chakravartty, N., Divakaran, N., Rabins, P.E., Kuriakose, B., Lekkala, S.P., Mohan, K., Lachagari, V.B.R., Kumar, I. and Roy, S.C. Genome-wide comparative analysis of three local aromatic rice lines revealed novel markers [Abstract]. In: Abstracts of the NGBT conference; Oct 02-04, 2017; Bhubaneswar, Odisha, India: Can J biotech, Volume 1, Special Issue (Supplement), Page 293. https://doi.org/10.24870/cjb.2017-a277
Organic and Biomolecular Chemistry | 2009
Sarabindu Roy; Miquel A. Pericàs
Advanced Synthesis & Catalysis | 2005
M. Lakshmi Kantam; Sarabindu Roy; Moumita Roy; B. Sreedhar; B. M. Choudary
Tetrahedron | 2007
M. Lakshmi Kantam; Moumita Roy; Sarabindu Roy; B. Sreedhar; S. Sakunthala Madhavendra; B. M. Choudary; Rajib Lal De
Catalysis Communications | 2008
M. Lakshmi Kantam; Moumita Roy; Sarabindu Roy; B. Sreedhar; Rajib Lal De
Advanced Synthesis & Catalysis | 2006
B. M. Choudary; Moumita Roy; Sarabindu Roy; M. Lakshmi Kantam; B. Sreedhar; Karasala Vijay Kumar
Journal of Molecular Catalysis A-chemical | 2007
Pravin R. Likhar; Sarabindu Roy; Moumita Roy; M. Lakshmi Kantam; Rajib Lal De
Helvetica Chimica Acta | 2008
Pravin R. Likhar; M. S. Subhas; Moumita Roy; Sarabindu Roy; M. Lakshmi Kantam