|The tomato genome sequence provides insights into fleshy fruit evolution|
Tomato Genome Consortium
Nature 485 (7400), 635, 2012
|The map-based sequence of the rice genome|
Nature 436 ((7052)), 793, 2005
|High-resolution mapping, cloning and molecular characterization of the Pi-k h gene of rice, which confers resistance to Magnaporthe grisea|
TR Sharma, MS Madhav, BK Singh, P Shanker, TK Jana, V Dalal, ...
Molecular Genetics and Genomics 274 (6), 569-578, 2005
|Informative genomic microsatellite markers for efficient genotyping applications in sugarcane|
SK Parida, SK Kalia, S Kaul, V Dalal, G Hemaprabha, A Selvi, A Pandit, ...
Theoretical and Applied Genetics 118 (2), 327-338, 2009
|Combining QTL mapping and transcriptome profiling of bulked RILs for identification of functional polymorphism for salt tolerance genes in rice (Oryzasativa L.)|
A Pandit, V Rai, S Bal, S Sinha, V Kumar, M Chauhan, RK Gautam, ...
Molecular Genetics and Genomics 284 (2), 121-136, 2010
|The first draft of the pigeonpea genome sequence|
NK Singh, DK Gupta, PK Jayaswal, AK Mahato, S Dutta, S Singh, ...
Journal of plant biochemistry and biotechnology 21 (1), 98-112, 2012
|The sequence of rice chromosomes 11 and 12, rich in disease resistance genes and recent gene duplications|
Rice Chromosomes 11 and 12 Sequencing Consortia*
BMC biology 3, 1-18, 2005
|A snapshot of the emerging tomato genome sequence|
LA Mueller, RK Lankhorst, SD Tanksley, JJ Giovannoni, R White, ...
The Plant Genome 2 (1), 78-92, 2009
|Functionally relevant microsatellites in sugarcane unigenes|
SK Parida, A Pandit, K Gaikwad, TR Sharma, PS Srivastava, NK Singh, ...
BMC Plant Biology 10 (1), 251, 2010
|Single-copy genes define a conserved order between rice and wheat for understanding differences caused by duplication, deletion, and transposition of genes|
NK Singh, V Dalal, K Batra, BK Singh, G Chitra, A Singh, IA Ghazi, ...
Functional & integrative genomics 7 (1), 17-35, 2007
|Mapping of QTLs Controlling Na+, K+ and CI− Ion Concentrations in Salt Tolerant Indica Rice Variety CSR27|
MHM Ammar, A Pandit, RK Singh, S Sameena, MS Chauhan, AK Singh, ...
Journal of Plant Biochemistry and Biotechnology 18 (2), 139-150, 2009
|SNP haplotypes of the BADH1 gene and their association with aroma in rice (Oryza sativa L.)|
A Singh, PK Singh, R Singh, A Pandit, AK Mahato, DK Gupta, K Tyagi, ...
Molecular Breeding 26 (2), 325-338, 2010
|Rifampicin reduces advanced glycation end products and activates DAF‐16 to increase lifespan in Caenorhabditis elegans|
S Golegaonkar, SS Tabrez, A Pandit, S Sethurathinam, ...
Aging cell 14 (3), 463-473, 2015
|Differentially expressed genes in sensitive and tolerant rice varieties in response to salt-stress|
A Pandit, V Rai, TR Sharma, PC Sharma, NK Singh
Journal of Plant Biochemistry and Biotechnology 20 (2), 149-154, 2011
|miR828 and miR858 regulate VvMYB114 to promote anthocyanin and flavonol accumulation in grapes|
V Tirumalai, C Swetha, A Nair, A Pandit, PV Shivaprasad
Journal of experimental botany 70 (18), 4775-4792, 2019
|Genetic affinity among five different population groups in India reflecting a Y-chromosome gene flow|
A Saha, S Sharma, A Bhat, A Pandit, R Bamezai
Journal of human genetics 50 (1), 49-51, 2005
|PHA-4/FOXA-regulated microRNA feed forward loops during Caenorhabditis elegans dietary restriction|
A Pandit, V Jain, N Kumar, A Mukhopadhyay
Aging (Albany NY) 6 (10), 835, 2014
|Isolation and molecular characterization of dengue virus clinical isolates from pediatric patients in New Delhi|
M Kar, A Nisheetha, A Kumar, S Jagtap, J Shinde, M Singla, M Saranya, ...
International Journal of Infectious Diseases 84, S25-S33, 2019
|A genome engineering resource to uncover principles of cellular organization and tissue architecture by lipid signalling|
D Trivedi, CM Vinitha, K Bisht, V Janardan, A Pandit, B Basak, P Raghu
|Single nucleotide polymorphism in sugar pathway and disease resistance genes in sugarcane|
SK Parida, S Kalia, A Pandit, P Nayak, RK Singh, K Gaikwad, ...
Plant cell reports 35 (8), 1629-1653, 2016