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Items: 15

1.

Phosphoproteomic Profiling Identifies Aberrant Activation of Integrin Signaling in Aggressive Non-Type Bladder Carcinoma.

Deb B, Puttamallesh VN, Gondkar K, Thiery JP, Gowda H, Kumar P.

J Clin Med. 2019 May 17;8(5). pii: E703. doi: 10.3390/jcm8050703.

2.

Phosphoproteomics of Retinoblastoma: A Pilot Study Identifies Aberrant Kinases.

Selvan LDN, Danda R, Madugundu AK, Puttamallesh VN, Sathe GJ, Krishnan UM, Khetan V, Rishi P, Prasad TSK, Pandey A, Krishnakumar S, Gowda H, Elchuri SV.

Molecules. 2018 Jun 15;23(6). pii: E1454. doi: 10.3390/molecules23061454.

3.

Identification of spleen tyrosine kinase as a potential therapeutic target for esophageal squamous cell carcinoma using reverse phase protein arrays.

Barbhuiya MA, Kashyap MK, Puttamallesh VN, Kumar RV, Wu X, Pandey A, Gowda H.

Oncotarget. 2018 Jan 1;9(26):18422-18434. doi: 10.18632/oncotarget.24853. eCollection 2018 Apr 6.

4.

Targeting focal adhesion kinase overcomes erlotinib resistance in smoke induced lung cancer by altering phosphorylation of epidermal growth factor receptor.

Solanki HS, Raja R, Zhavoronkov A, Ozerov IV, Artemov AV, Advani J, Radhakrishnan A, Babu N, Puttamallesh VN, Syed N, Nanjappa V, Subbannayya T, Sahasrabuddhe NA, Patil AH, Prasad TSK, Gaykalova D, Chang X, Sathyendran R, Mathur PP, Rangarajan A, Sidransky D, Pandey A, Izumchenko E, Gowda H, Chatterjee A.

Oncoscience. 2018 Feb 23;5(1-2):21-38. doi: 10.18632/oncoscience.395. eCollection 2018 Jan.

5.

Cigarette smoke induces mitochondrial metabolic reprogramming in lung cells.

Solanki HS, Babu N, Jain AP, Bhat MY, Puttamallesh VN, Advani J, Raja R, Mangalaparthi KK, Kumar MM, Prasad TSK, Mathur PP, Sidransky D, Gowda H, Chatterjee A.

Mitochondrion. 2018 May;40:58-70. doi: 10.1016/j.mito.2017.10.002. Epub 2017 Oct 16.

PMID:
29042306
6.

Corrigendum: A dual specificity kinase, DYRK1A, as a potential therapeutic target for head and neck squamous cell carcinoma.

Radhakrishnan A, Nanjappa V, Raja R, Sathe G, Puttamallesh VN, Jain AP, Pinto SM, Balaji SA, Chavan S, Sahasrabuddhe NA, Mathur PP, Kumar MM, Prasad TSK, Santosh V, Sukumar G, Califano JA, Rangarajan A, Sidransky D, Pandey A, Gowda H, Chatterjee A.

Sci Rep. 2017 Jun 26;7:46864. doi: 10.1038/srep46864.

7.

A dual specificity kinase, DYRK1A, as a potential therapeutic target for head and neck squamous cell carcinoma.

Radhakrishnan A, Nanjappa V, Raja R, Sathe G, Puttamallesh VN, Jain AP, Pinto SM, Balaji SA, Chavan S, Sahasrabuddhe NA, Mathur PP, Kumar MM, Prasad TS, Santosh V, Sukumar G, Califano JA, Rangarajan A, Sidransky D, Pandey A, Gowda H, Chatterjee A.

Sci Rep. 2016 Oct 31;6:36132. doi: 10.1038/srep36132. Erratum in: Sci Rep. 2017 Jun 26;7:46864.

8.

Chronic exposure to cigarette smoke leads to activation of p21 (RAC1)-activated kinase 6 (PAK6) in non-small cell lung cancer cells.

Raja R, Sahasrabuddhe NA, Radhakrishnan A, Syed N, Solanki HS, Puttamallesh VN, Balaji SA, Nanjappa V, Datta KK, Babu N, Renuse S, Patil AH, Izumchenko E, Prasad TS, Chang X, Rangarajan A, Sidransky D, Pandey A, Gowda H, Chatterjee A.

Oncotarget. 2016 Sep 20;7(38):61229-61245. doi: 10.18632/oncotarget.11310.

9.

Identification of differentially expressed serum proteins in gastric adenocarcinoma.

Subbannayya Y, Mir SA, Renuse S, Manda SS, Pinto SM, Puttamallesh VN, Solanki HS, Manju HC, Syed N, Sharma R, Christopher R, Vijayakumar M, Veerendra Kumar KV, Keshava Prasad TS, Ramaswamy G, Kumar RV, Chatterjee A, Pandey A, Gowda H.

J Proteomics. 2015 Sep 8;127(Pt A):80-8. doi: 10.1016/j.jprot.2015.04.021. Epub 2015 May 5.

10.

Characterization of traumatic brain injury in human brains reveals distinct cellular and molecular changes in contusion and pericontusion.

Harish G, Mahadevan A, Pruthi N, Sreenivasamurthy SK, Puttamallesh VN, Keshava Prasad TS, Shankar SK, Srinivas Bharath MM.

J Neurochem. 2015 Jul;134(1):156-72. doi: 10.1111/jnc.13082. Epub 2015 Mar 20.

11.

Host response profile of human brain proteome in toxoplasma encephalitis co-infected with HIV.

Sahu A, Kumar S, Sreenivasamurthy SK, Selvan LD, Madugundu AK, Yelamanchi SD, Puttamallesh VN, Dey G, Anil AK, Srinivasan A, Mukherjee KK, Gowda H, Satishchandra P, Mahadevan A, Pandey A, Prasad TS, Shankar SK.

Clin Proteomics. 2014 Nov 1;11(1):39. doi: 10.1186/1559-0275-11-39. eCollection 2014.

12.

Proteogenomic analysis of pathogenic yeast Cryptococcus neoformans using high resolution mass spectrometry.

Nagarajha Selvan LD, Kaviyil JE, Nirujogi RS, Muthusamy B, Puttamallesh VN, Subbannayya T, Syed N, Radhakrishnan A, Kelkar DS, Ahmad S, Pinto SM, Kumar P, Madugundu AK, Nair B, Chatterjee A, Pandey A, Ravikumar R, Gowda H, Prasad TS.

Clin Proteomics. 2014 Feb 3;11(1):5. doi: 10.1186/1559-0275-11-5.

13.

Proteomic profiling of serum samples from chikungunya-infected patients provides insights into host response.

Puttamallesh VN, Sreenivasamurthy SK, Singh PK, Harsha HC, Ganjiwale A, Broor S, Pandey A, Narayana J, Prasad TSK.

Clin Proteomics. 2013 Oct 14;10(1):14. doi: 10.1186/1559-0275-10-14.

14.

Proteomic analysis of purified protein derivative of Mycobacterium tuberculosis.

Prasad TS, Verma R, Kumar S, Nirujogi RS, Sathe GJ, Madugundu AK, Sharma J, Puttamallesh VN, Ganjiwale A, Myneedu VP, Chatterjee A, Pandey A, Harsha H, Narayana J.

Clin Proteomics. 2013 Jul 19;10(1):8. doi: 10.1186/1559-0275-10-8.

15.

Phosphoproteome of Cryptococcus neoformans.

Selvan LD, Renuse S, Kaviyil JE, Sharma J, Pinto SM, Yelamanchi SD, Puttamallesh VN, Ravikumar R, Pandey A, Prasad TS, Harsha HC.

J Proteomics. 2014 Jan 31;97:287-95. doi: 10.1016/j.jprot.2013.06.029. Epub 2013 Jul 11.

PMID:
23851311

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