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Vandna Kukshal
Vandna Kukshal
Protein Scientist , Bayer crop science
Verified email at wustl.edu
Title
Cited by
Cited by
Year
NAD+‐dependent DNA ligase (Rv3014c) from Mycobacterium tuberculosis: Novel structure‐function relationship and identification of a specific inhibitor
SK Srivastava, D Dube, V Kukshal, AK Jha, K Hajela, R Ramachandran
Proteins: Structure, Function, and Bioinformatics 69 (1), 97-111, 2007
612007
Mechanism of inhibition of the ATPase domain of human topoisomerase IIα by 1, 4-benzoquinone, 1, 2-naphthoquinone, 1, 4-naphthoquinone, and 9, 10-phenanthroquinone
D Gurbani, V Kukshal, J Laubenthal, A Kumar, A Pandey, S Tripathi, ...
Toxicological Sciences 126 (2), 372-390, 2012
492012
NAD+‐Dependent DNA Ligase: A novel target waiting for the right inhibitor
N Dwivedi, D Dube, J Pandey, B Singh, V Kukshal, R Ramachandran, ...
Medicinal research reviews 28 (4), 545-568, 2008
492008
Bile acid receptor agonist GW4064 regulates PPARγ coactivator-1α expression through estrogen receptor-related receptor α
SKD Dwivedi, N Singh, R Kumari, JS Mishra, S Tripathi, P Banerjee, ...
Molecular endocrinology 25 (6), 922-932, 2011
482011
Chemical inhibition of the auxin inactivation pathway uncovers the roles of metabolic turnover in auxin homeostasis
K Fukui, K Arai, Y Tanaka, Y Aoi, V Kukshal, JM Jez, MF Kubes, R Napier, ...
Proceedings of the National Academy of Sciences 119 (32), e2206869119, 2022
322022
Human DNA ligase III bridges two DNA ends to promote specific intermolecular DNA end joining
V Kukshal, IK Kim, GL Hura, AE Tomkinson, JA Tainer, Ellenberger, Tom
Nucl. Acids Res., 2015
312015
Chronologically modified androgen receptor in recurrent castration-resistant prostate cancer and its therapeutic targeting
M Sawant, K Mahajan, A Renganathan, C Weimholt, J Luo, V Kukshal, ...
Science translational medicine 14 (649), eabg4132, 2022
232022
M. tuberculosis sliding β-clamp does not interact directly with the NAD+-dependent DNA ligase
V Kukshal, T Khanam, D Chopra, N Singh, S Sanyal, R Ramachandran
PLoS One 7 (4), e35702, 2012
182012
Point mutations that boost aromatic amino acid production and CO2 assimilation in plants
R Yokoyama, MVV de Oliveira, Y Takeda-Kimura, H Ishihara, S Alseekh, ...
Science advances 8 (23), eabo3416, 2022
172022
Crystal structure of the hexachlorocyclohexane dehydrochlorinase (LinA-type2): mutational analysis, thermostability and enantioselectivity
AS Macwan, V Kukshal, N Srivastava, S Javed, A Kumar, ...
PloS one 7 (11), e50373, 2012
172012
Synthesis, in silico screening and bioevaluation of dispiro-cycloalkanones as antitubercular and mycobacterial NAD+-dependent DNA ligase inhibitors
RP Tripathi, J Pandey, V Kukshal, A Ajay, M Mishra, D Dube, D Chopra, ...
MedChemComm 2 (5), 378-384, 2011
152011
Distribution and the evolutionary history of G-protein components in plant and algal lineages
B Mohanasundaram, A Dodds, V Kukshal, JM Jez, S Pandey
Plant Physiology 189 (3), 1519-1535, 2022
142022
Phosphorylation-Dependent Conformations of the Disordered Carboxyl-Terminus Domain in the Epidermal Growth Factor Receptor
Raju Regmi, Shwetha Srinivasan, Andrew P. Latham, Vandna Kukshal, Weidong ...
Journal of Physical Chemistry Letters 11, 10037–10044, 2020
142020
Beyond X-rays: an overview of emerging structural biology methods
JE Schaffer, V Kukshal, JJ Miller, V Kitainda, JM Jez
Emerging Topics in Life Sciences 33538291, 2021
132021
The mitochondrial single-stranded DNA binding protein from S. cerevisiae, Rim1, does not form stable homo-tetramers and binds DNA as a dimer of dimers
SP Singh, V Kukshal, P De Bona, E Antony, R Galletto
Nucleic Acids Research, 2018
132018
NAD+-dependent DNA ligase (Rv3014c) from M. tuberculosis: Strategies for inhibitor design
D Dube, V Kukshal, SK Srivastava, RP Tripathi, R Ramachandran
Medicinal Chemistry Research 17, 189-198, 2008
92008
Synthesis and bioevaluation of aryl hydroxamates distinguishing between NAD+ and ATP-dependent DNA ligases
V Kukshal, M Mishra, A Ajay, T Khanam, R Sharma, D Dube, D Chopra, ...
MedChemComm 3 (4), 453-461, 2012
62012
A stable tetramer is not the only oligomeric state that mitochondrial single-stranded DNA binding proteins can adopt
SP Singh, V Kukshal, R Galletto
Journal of Biological Chemistry 294 (11), 4137-4144, 2019
42019
Chemical inhibition of auxin inactivation pathway uncovers the metabolic turnover of auxin homeostasis
K Fukui, K Arai, Y Tanaka, Y Aoi, V Kukshal, JM Jez, MF Kubes, R Napier, ...
bioRxiv, 2021.10. 12.464031, 2021
32021
Exploring Conformational Dynamics in EGFR using Single-Molecule Spectroscopy
S Srinivasan, R Regmi, S Quinn, W He, V Kukshal, J Monsey, ...
Biophysical Journal 116 (3), 279a, 2019
2019
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