Developmental Biology and Genetics (DBG)
Indian Institute of Science, Bengaluru
-
Rajakumari S, and Srivastava S. (2021) Aging and β3-adrenergic stimulation alter mitochondrial lipidome of adipose tissue. Biochim Biophys Acta Mol Cell Biol Lipids. 11;1866(7):158922.
-
Divakaran SJ, Srivastava S, Jahagirdar A, Rajendran R, Sukhdeo SV, Rajakumari S. (2020) Sesaminol induces brown and beige adipocyte formation through suppression of myogenic program. FASEB J. 34(5):6854-6870.
-
Ravi V, Jain A, Khan D, Ahamed F, Mishra S, Giri M, Inbaraj M, Krishna S, Sarikhani M, Maity S, Kumar S, Shah RA, Dave P, Pandit AS, Rajendran R, Desingu PA, Varshney U, Das S, Kolthur-Seetharam U, Rajakumari S, Singh M, Sundaresan NR. (2019) SIRT6 transcriptionally regulates global protein synthesis through transcription factor Sp1 independent of its deacetylase activity. Nucleic Acids Res. 47(17):9115-9131.
-
Shapira SN, Lim HW, Rajakumari S, Sakers AP, Ishibashi J, Harms MJ, Won KJ, Seale P. (2017). EBF2 transcriptionally regulates brown adipogenesis via the histone reader DPF3 and the BAF chromatin remodeling complex. Genes Dev. 31(7):660-673.
-
Harms MJ, Lim HW, Ho Y, Shapira SN, Ishibashi J, Rajakumari S, Steger DJ, Lazar MA, Won KJ, Seale P. (2015) PRDM16 binds MED1 and controls chromatin architecture to determine a brown fat transcriptional program. Genes Dev. 29(3):298-307.
-
Wang W, Kissig M, Rajakumari S, Huang L, Lim HW, Won KJ, Seale P. (2014) Ebf2 is a selective marker of brown and beige adipogenic precursor cells. Proc Natl Acad Sci USA. 111(40):14466-14471.
-
Rajakumari S, Wu J, Ishibashi J, Lim HW, Giang AH, Won KJ, Reed RR, and Seale P. (2013) EBF2 Determines and Maintains Brown Adipocyte Identity. Cell Metab. 17(4):562-574.
-
Ishibashi J, Firtina Z, Rajakumari S, Wood KH, Conroe HM, Steger DJ, Seale P. (2011) An Evi1-C/EBPβ Complex Controls Peroxisome Proliferator-Activated Receptor γ2 Gene Expression To Initiate White Fat Cell Differentiation. Mol Cell Biol. 32(12):2289-2299.
-
Parthibane V, Rajakumari S, Venkateshwari V, Iyappan R, Rajasekharan R. (2011) Oleosin is a bifunctional enzyme that has both monoacylglycerol acyltransferase and phospholipase activities. J Biol Chem. 287(3):1946-1954.
-
Rajakumari S, Rajasekharan R, and Daum G. (2010) Triacylglycerol Lipolysis is Linked to Sphingolipid and Phospholipid Metabolism of the Saccharomyces cerevisiae. Biochim Biophys Acta 1801(12):1314-1322.
-
Rajakumari S, and Daum G. (2010) Multiple functions as lipase, steryl ester hydrolase, phospholipase and acyltransferase of Tgl4p from the yeast Saccharomyces cerevisiae. J Biol Chem. 285(21):15769-15776.
-
Rajakumari S, and Daum G. (2010) Janus-faced enzymes yeast Tgl3p and Tgl5p catalyze lipase and acyltransferase reactions. Mol Biol Cell. 21(4):501-510.
-
Ghosh AK, Chauhan N, Rajakumari S, Daum G, and Rajasekharan R. (2009) At4g24160, A Cytosolic Lysophosphatidic Acid Acyltransferase with Phospholipase and Lipase Functions. Plant Physiol. 151(2):869-881.
-
Rajakumari S, Grillitsch K, Daum G. (2008) Synthesis and turnover of non-polar lipids in yeast. Prog Lipid Res. 47(3):157-171.
-
Srinivas M, Rajakumari S, Narayana Y, Joshi B, Katoch VM, Rajasekharan R, Balaji KN. (2008) Functional characterization of the phospholipase C activity of Rv3487c and its localization on the cell wall of Mycobacterium tuberculosis. J Biosci. 33(2):221-230.
-
Rajakumari S, Srinivasan M, and Rajasekharan R. (2006) Spectrophotometric Method for Quantitative Determination of Detergents in Aqueous Solutions. J. Biochem Biophys Methods 68(2):133–137.
-
Saha S, Enugutti B, Rajakumari S, and Rajasekharan R. (2006) Cytosolic Triacylglycerol Biosynthetic Pathway in Plants: Molecular Cloning and Expression of Peanut Cytosolic Diacylglycerol Acyltransferase. Plant Physiol. 141(4):1533-1543.