Related references
Note: Only part of the references are listed.Neuroprotective effect of (-)-tetrahydropalmatine in Japanese encephalitis virus strain GP-78 infected mouse model
Huang Lixia et al.
MICROBIAL PATHOGENESIS (2018)
Japanese encephalitis - the prospects for new treatments
Lance Turtle et al.
NATURE REVIEWS NEUROLOGY (2018)
Japanese encephalitis virus induces apoptosis by inhibiting Foxo signaling pathway
Fenglin Guo et al.
VETERINARY MICROBIOLOGY (2018)
Regulation of inflammation in Japanese encephalitis
Nils Lannes et al.
JOURNAL OF NEUROINFLAMMATION (2017)
Japanese encephalitis virus disrupts blood-brain barrier and modulates apoptosis proteins in THBMEC cells
Mazen M. Jamil Al-Obaidi et al.
VIRUS RESEARCH (2017)
Regulation of Apoptosis during Flavivirus Infection
Toru Okamoto et al.
VIRUSES-BASEL (2017)
HSV-1 ICP27 induces apoptosis by promoting Bax translocation to mitochondria through interacting with 14-3-3θ
Ji Ae Kim et al.
BMB REPORTS (2017)
Japanese encephalitis virus induces apoptosis by the IRE1/JNK pathway of ER stress response in BHK-21 cells
Mingjie Huang et al.
ARCHIVES OF VIROLOGY (2016)
Antioxidants: potential antiviral agents for Japanese encephalitis virus infection
Yu Zhang et al.
INTERNATIONAL JOURNAL OF INFECTIOUS DISEASES (2014)
Japanese encephalitis The virus and vaccines
Sang-Im Yun et al.
HUMAN VACCINES & IMMUNOTHERAPEUTICS (2014)
The NS3 protease and helicase domains of Japanese encephalitis virus trigger cell death via caspase-dependent and -independent pathways
Giou-Teng Yiang et al.
MOLECULAR MEDICINE REPORTS (2013)
Multiple Functions of BCL-2 Family Proteins
J. Marie Hardwick et al.
COLD SPRING HARBOR PERSPECTIVES IN BIOLOGY (2013)
Transcriptional regulation and activation of the mitogen-activated protein kinase pathway after Japanese encephalitis virus infection in neuroblastoma cells
Nimesh Gupta et al.
FEMS IMMUNOLOGY AND MEDICAL MICROBIOLOGY (2011)
Japanese encephalitis virus: from genome to infectome
Salini Krishnan Unni et al.
MICROBES AND INFECTION (2011)
To kill or be killed: how viruses interact with the cell death machinery
V. Kaminskyy et al.
JOURNAL OF INTERNAL MEDICINE (2010)
Japanese encephalitis virus down-regulates thioredoxin and induces ROS-mediated ASK1-ERK/p38 MAPK activation in human promonocyte cells
Tsuey-Ching Yang et al.
MICROBES AND INFECTION (2010)
Ecology and Geographical Expansion of Japanese Encephalitis Virus
Andrew F. van den Hurk et al.
ANNUAL REVIEW OF ENTOMOLOGY (2009)
Some observations on the tropism of Japanese encephalitis virus in rat brain
Sandeep Kumar et al.
BRAIN RESEARCH (2009)
Free Radical Generation by Neurons in Rat Model of Japanese Encephalitis
Ruchi Srivastava et al.
NEUROCHEMICAL RESEARCH (2009)
Imbalance in oxidant/antioxidant system in different brain regions of rat after the infection of Japanese encephalitis virus
Sandeep Kumar et al.
NEUROCHEMISTRY INTERNATIONAL (2009)
Japanese encephalitis virus NS2B-NS3 protease induces caspase 3 activation and mitochondria-mediated apoptosis in human medulloblastoma cells
Tsuey-Ching Yang et al.
VIRUS RESEARCH (2009)
Japanese encephalitis virus infection activates caspase-8 and-9 in a FADD-independent and mitochondrion-dependent manner
Chang-Huei Tsao et al.
JOURNAL OF GENERAL VIROLOGY (2008)
Tumor necrosis factor receptor-1-induced neuronal death by TRADD contributes to the pathogenesis of Japanese encephalitis
Vivek Swarup et al.
JOURNAL OF NEUROCHEMISTRY (2007)
Vesicular stomatitis virus infection triggers apoptosis associated with decreased ΔNp63α and increased Bax levels in the immortalized HaCaT keratinocyte cell line
Klara Megyeri et al.
BIOMEDICINE & PHARMACOTHERAPY (2007)
Flavivirus activates phosphatidylinositol 3-kinase signaling to block caspase-dependent apoptotic cell death at the early stage of virus infection
CJ Lee et al.
JOURNAL OF VIROLOGY (2005)
The p18 truncated form of bax behaves like a Bcl-2 homology domain 3-only protein
PF Cartron et al.
JOURNAL OF BIOLOGICAL CHEMISTRY (2004)
A model to study neurotropism and persistency of Japanese encephalitis virus infection in human neuroblastoma cells and leukocytes
KD Yang et al.
JOURNAL OF GENERAL VIROLOGY (2004)
Caspase activation, inhibition, and reactivation: A mechanistic view
YG Shi
PROTEIN SCIENCE (2004)
Cadmium induces apoptotic cell death in WI 38 cells via caspase-dependent Bid cleavage and calpain-mediated mitochondrial Bax cleavage by Bcl-2-independent pathway
SH Oh et al.
BIOCHEMICAL PHARMACOLOGY (2004)
Cleavage of Bax to p18 Bax accelerates stress-induced apoptosis, and a cathepsin-like protease may rapidly degrade p18 Bax
XF Cao et al.
BLOOD (2003)
Calpain-induced Bax-cleavage product is a more potent inducer of apoptotic cell death than wild-type Bax
H Toyota et al.
CANCER LETTERS (2003)
Cleavage of Bax is mediated by caspase-dependent or -independent calpain activation in dopaminergic neuronal cells: protective role of Bcl-2
WS Choi et al.
JOURNAL OF NEUROCHEMISTRY (2001)
Cleavage of Bax enhances its cell death function
DE Wood et al.
EXPERIMENTAL CELL RESEARCH (2000)
Share Paper
