Records 1 - 5
| High-altitude pulmonary edema is aggravated by risk-loci and associated transcription factors in HIF-prolyl hydroxylases.
Human molecular genetics 2021 May .
Sharma Kavita, Mishra Aastha, Singh Himanshu N, Prashar Deepak, Alam Perwez, Thinlas Tashi, Mohammad Ghulam, Kukreti Ritushree, Syed Mansoor Ali, Pasha M A Qad
| Raised HIF1a during normoxia in high altitude pulmonary edema susceptible non-mountaineers.
Scientific reports 2016 6 26468.
Soree Poonam, Gupta Rajinder K, Singh Krishan, Desiraju Koundinya, Agrawal Anurag, Vats Praveen, Bharadwaj Abhishek, Baburaj T P, Chaudhary Pooja, Singh Vijay K, Verma Saroj, Bajaj Amir Chand, Singh Shashi Ba
| Combined genetic effects of EGLN1 and VWF modulate thrombotic outcome in hypoxia revealed by Ayurgenomics approach.
Journal of translational medicine 2015 13 184.
Aggarwal Shilpi, Gheware Atish, Agrawal Anurag, Ghosh Saurabh, Prasher Bhavana, Mukerji Mitali,
| Correlation between single nucleotide polymorphisms in hypoxia-related genes and susceptibility to acute high-altitude pulmonary edema.
Genetics and molecular research : GMR 2015 14 (3): 11562-72.
Wu A L, Xiong Y S, Li Z Q, Liu Y G, Quan Q, Wu L
| EGLN1 involvement in high-altitude adaptation revealed through genetic analysis of extreme constitution types defined in Ayurveda.
Proceedings of the National Academy of Sciences of the United States of America 2010 Nov 107 (44): 18961-6.
Aggarwal Shilpi, Negi Sapna, Jha Pankaj, Singh Prashant K, Stobdan Tsering, Pasha M A Qadar, Ghosh Saurabh, Agrawal Anurag, , Prasher Bhavana, Mukerji Mita