about
Luman, the cellular counterpart of herpes simplex virus VP16, is processed by regulated intramembrane proteolysisInoculation of bats with European Geomyces destructans supports the novel pathogen hypothesis for the origin of white-nose syndrome.Lack of inflammatory gene expression in bats: a unique role for a transcription repressor.Activation of innate immune-response genes in little brown bats (Myotis lucifugus) infected with the fungus Pseudogymnoascus destructans.Sensing nerve injury at the axonal ER: activated Luman/CREB3 serves as a novel axonally synthesized retrograde regeneration signal.Zhangfei, a novel regulator of the human nerve growth factor receptor, trkA.Zhangfei/CREB-ZF - a potential regulator of the unfolded protein responseThe effect of Zhangfei/CREBZF on cell growth, differentiation, apoptosis, migration, and the unfolded protein response in several canine osteosarcoma cell lines.Pathophysiology of white-nose syndrome in bats: a mechanistic model linking wing damage to mortalityA persistently infecting coronavirus in hibernating Myotis lucifugus, the North American little brown bat.Generation and Characterization of Eptesicus fuscus (Big brown bat) kidney cell lines immortalized using the Myotis polyomavirus large T-antigen.Broad and Temperature Independent Replication Potential of Filoviruses on Cells Derived From Old and New World Bat Species.Effects of cyclic AMP response element binding protein-Zhangfei (CREBZF) on the unfolded protein response and cell growth are exerted through the tumor suppressor p53Mechanism for the induction of cell death in ONS-76 medulloblastoma cells by Zhangfei/CREB-ZF.The effect of Zhangfei on the unfolded protein response and growth of cells derived from canine and human osteosarcomas.White-Nose Syndrome Disease Severity and a Comparison of Diagnostic Methods.Novel Brn3a cis-acting sequences mediate transcription of human trkA in neurons.Surprise is a Neglected Aspect of Emerging Infectious Disease.The other white-nose syndrome transcriptome: Tolerant and susceptible hosts respond differently to the pathogen Pseudogymnoascus destructans.Construction of herpes simplex viruses that are pseudodiploid for the glycoprotein B gene: a strategy for studying the function of an essential herpesvirus gene.Susceptibility of bovid herpesvirus 1 to antiviral drugs: in vitro versus in vivo efficacy of (E)-5-(2-Bromovinyl)-2'-deoxyuridine.The most abundant protein in bovine herpes 1 virions is a homologue of herpes simplex virus type 1 UL47.Cloning and characterization of rat Luman/CREB3, a transcription factor highly expressed in nervous system tissue.Detection and quantitation of pea and soy-derived proteins in calf milk replacers.Feline leukemia virus detection by ELISA and PCR in peripheral blood from 68 cats with high, moderate, or low suspicion of having FeLV-related disease.Sequence analysis of the putative viral enhancer in tissues from 33 cats with various feline leukemia virus-related diseases.Analysis of bovine herpes virus-type 1 isolates by restriction endonuclease fingerprinting.Bovine rotavirus-cell interactions: effect of virus infection on cellular integrity and macromolecular synthesis.Identification and characterization of AtCASP, a plant transmembrane Golgi matrix protein.Seroprevalence of Rift Valley Fever Virus Antibodies in Cattle in Mali, 2005-2014.Detection of polyoma and corona viruses in bats of Canada.Tools to study pathogen-host interactions in bats.Isolation, characterization and prevalence of a novel Gammaherpesvirus in Eptesicus fuscus, the North American big brown bat.Stable reference genes in granulosa cells of bovine dominant follicles during follicular growth, FSH stimulation and maternal aging.Monoclonal antibodies against LHRH: development and immunoactivity in vivo and in vitro.Environmentally persistent pathogens present unique challenges for studies of host–pathogen interactions: Reply to Field (2018).White-nose syndrome is associated with increased replication of a naturally persisting coronaviruses in batsThe Unfolded Protein Response and Cholesterol Biosynthesis Link Luman/CREB3 to Regenerative Axon Growth in Sensory NeuronsRegulation of follistatin gene expression in the ovary and in primary cultures of porcine granulosa cellsRegulation of follistatin messenger ribonucleic acid in porcine granulosa cells by epidermal growth factor and the protein kinase-C pathway
P50
Q24537679-727C4832-1F11-49E1-B247-A080011830D1Q30513956-9C7376D3-A43C-4E7F-80AE-77F1B104E7C4Q33714827-41DAE0A0-2B7A-4132-82D6-F5776C6B1540Q34497708-C518CEA8-A015-4299-B4C5-6AA1D233D2E5Q34526352-C55EF28C-A04F-4774-8297-A69461A62C3FQ34882839-D043948F-5F93-4086-8A30-08A803AFA607Q35025407-B8CAFBCF-4225-49E9-9DE4-BAC3080A98DDQ35609180-3BC86005-BF4C-485E-90CD-AB40021F6C92Q37062568-BA3922CE-160B-4896-9B0B-BABF55925A84Q38372138-A407EE84-BA49-468F-B5BF-962DA004A58EQ38745760-C5424CA7-4AE6-441D-8C71-709CA436BE51Q38761084-5F34ACDB-4CD2-4D75-AE4D-42A3291FFCDBQ39066208-5540908D-2B5F-4AD9-A2E5-12193B71A58AQ39314148-72B0FAB3-6432-4068-B0F4-228DD98E9067Q39412639-13208B8D-2EE8-4B09-915B-8F58F137ECF6Q39936946-6AB85755-2C92-4F04-BCA5-7A8B22D97AD0Q40034529-C7EDC09A-6E62-4A34-93E1-4D3D697306CDQ41601468-32D2FCDB-6F24-4183-BCA7-8F6B1EE36800Q41696134-C68D7DE4-0AAE-4A73-AA44-20447EE2F507Q41697728-D478CABD-7B49-42F7-B812-8DCD6D91CA04Q42610491-17981C26-0EF6-4885-B505-FA5ED4C8DAD1Q42614216-80E1651D-508F-4C07-84FB-85C65782BE13Q42664049-492BF4B9-5EEA-4BA6-8A87-CEFD1FC06B9AQ43623456-D627E3D5-6174-455D-B0E3-EB6491F58FD4Q45764828-1F767C07-8013-4183-9EC5-789B38191A51Q45765093-10C2DA37-B519-4E4A-96C2-5ACB5CE69DF9Q45797675-1AF78829-2DCE-46FF-97C0-3187AA6540C2Q45801463-58BDB269-B782-4B93-AB38-AE7C25A6079EQ46607515-7A1B7FB4-9EB2-46E7-BC98-671D25F80C6BQ47549408-8B68AB14-9492-46D3-9506-63E43E953B21Q48070386-2C4FE16F-C512-4645-A154-78E9D43CEA41Q49897961-3EAA9052-BF08-4E9A-BDCA-3733140CB899Q50176821-CAFF8917-8389-4FA3-BF02-A4740159E8A0Q50621722-43568C6E-7085-4F8C-90B7-2A432F36E5AAQ53437790-A5DA96D3-2359-430E-B650-8741990993E2Q55238694-830CD3C2-D67F-4839-96C9-1D21E849B2AEQ57811550-405062EB-19C7-4339-9A71-11521D83EE20Q58640364-79A911B4-F270-4750-AB90-0E4197AB4E0FQ58640647-DD631D14-ABB5-4A1B-A0C7-6F1BEB8754E5Q58640666-52307D9E-F652-41C0-84EA-EB83D49513E7
P50
description
researcher ORCID ID = 0000-0001-6818-7156
@en
name
Vikram Misra
@ast
Vikram Misra
@en
Vikram Misra
@es
Vikram Misra
@nl
type
label
Vikram Misra
@ast
Vikram Misra
@en
Vikram Misra
@es
Vikram Misra
@nl
prefLabel
Vikram Misra
@ast
Vikram Misra
@en
Vikram Misra
@es
Vikram Misra
@nl
P106
P1153
7201897411
P2038
Vikram_Misra2
P31
P496
0000-0001-6818-7156