Ngā hua rapu - Kritarth Singh

  • E whakaatu ana i te 1 - 6 hua o te 6
Whakamahine hua
  1. 1
    TRIM13 regulates caspase-8 ubiquitination, translocation to autophagosomes and activation during ER stress induced cell death

    TRIM13 regulates caspase-8 ubiquitination, translocation to autophagosomes and activation during ER stress induced cell death Dhanendra Tomar, Paresh Prajapati, Lakshmi Sripada, Kritarth Singh, Rochika Singh, Arun Kumar Singh, Rajesh Singh

    I whakaputaina 2013
    Whiwhi kuputuhi katoa
    Artigo
    Tiaki ki tētahi rārangi
    I tiakina i:
  2. 2
    MitoSegNet: Easy-to-use Deep Learning Segmentation for Analyzing Mitochondrial Morphology

    MitoSegNet: Easy-to-use Deep Learning Segmentation for Analyzing Mitochondrial Morphology Christian Fischer, Laura Besora-Casals, S. Rolland, Simon Haeussler, Kritarth Singh, Michael R. Duchen, Barbara Conradt, Carsten Marr

    I whakaputaina 2020
    Whiwhi kuputuhi katoa Whiwhi kuputuhi katoa
    Artigo
    Tiaki ki tētahi rārangi
    I tiakina i:
  3. 3
    NLRX1 regulates TNF-α-induced mitochondria-lysosomal crosstalk to maintain the invasive and metastatic potential of breast cancer cells

    NLRX1 regulates TNF-α-induced mitochondria-lysosomal crosstalk to maintain the invasive and metastatic potential of breast cancer cells Kritarth Singh, Milton Roy, Paresh Prajapati, Anastasiya V. Lipatova, Lakshmi Sripada, Dhruv Gohel, Aru Singh, Meenal Mane, Madan M. Godbole, Peter M. Chumakov, Rajesh Singh

    I whakaputaina 2019
    Whiwhi kuputuhi katoa
    Artigo
    Tiaki ki tētahi rārangi
    I tiakina i:
  4. 4
    The spectrum of neurodevelopmental, neuromuscular and neurodegenerative disorders due to defective autophagy

    The spectrum of neurodevelopmental, neuromuscular and neurodegenerative disorders due to defective autophagy Celine Deneubourg, Mauricio Ramm, Luke J. Smith, Olga Baron, Kritarth Singh, Susan Byrne, Michael R. Duchen, Mathias Gautel, Eeva‐Liisa Eskelinen, Manolis Fanto, Heinz Jungbluth

    I whakaputaina 2021
    Whiwhi kuputuhi katoa Whiwhi kuputuhi katoa
    Artigo
    Tiaki ki tētahi rārangi
    I tiakina i:
  5. 5
    Disruption of mitochondrial homeostasis and permeability transition pore opening in OPA1 iPSC-derived retinal ganglion cells

    Disruption of mitochondrial homeostasis and permeability transition pore opening in OPA1 iPSC-derived retinal ganglion cells M. A. Whitehead, Joshua Harvey, Paul E. Sladen, Giada Becchi, Kritarth Singh, Yujiao Jennifer Sun, Thomas Burgoyne, Michael R. Duchen, Patrick Yu‐Wai‐Man, Michael E. Cheetham

    I whakaputaina 2025
    Whiwhi kuputuhi katoa
    Artigo
    Tiaki ki tētahi rārangi
    I tiakina i:
  6. 6
    Constitutive activation of the PI3K-Akt-mTORC1 pathway sustains the m.3243 A > G mtDNA mutation

    Constitutive activation of the PI3K-Akt-mTORC1 pathway sustains the m.3243 A > G mtDNA mutation Chih-Yao Chung, Kritarth Singh, Vassilios N. Kotiadis, Gabriel E. Valdebenito, Jee Hwan Ahn, Emilie Topley, Joycelyn Tan, William D. Andrews, Benoît Bilanges, Robert D. S. Pitceathly, György Szabadkai, Mariia Yuneva, Michael R. Duchen

    I whakaputaina 2021
    Whiwhi kuputuhi katoa Whiwhi kuputuhi katoa
    Artigo
    Tiaki ki tētahi rārangi
    I tiakina i:

Ngā utauta rapu: