MIchael Shapira
机构: Associate Professor of Integrative Biology
每年引用次数
引用次数
引用: 5,542
H-指数: 26
I10-指数 : 31
出版物: 47
Host-microbiota interactions in Caenorhabditis elegans and their significance.
Michael Shapira
Current Opinion in Microbiology 38 142 -147
15
2017
Extra-intestinal regulation of the gut microbiome : The case of C. elegans TGFβ/SMA signaling
Rebecca Choi , Dan Kim , Stacy Li , Meril Massot
CRC Press 119 -134
2020
Assembly of the Caenorhabditis elegans gut microbiota from diverse soil microbial environments
Maureen Berg , Ben Stenuit , Joshua Ho , Andrew Wang
The ISME Journal 10 ( 8) 1998 -2009
261
2016
Dissociation of Immune Responses from Pathogen Colonization Supports Pattern Recognition in C. elegans
Kwame Twumasi-Boateng , Michael Shapira
PLoS ONE 7 ( 4) e35400
16
2012
Disruption of Yeast Forkhead-associated Cell Cycle Transcription by Oxidative Stress
Michael Shapira , Eran Segal , David Botstein
Molecular Biology of the Cell 15 ( 12) 5659 -5669
70
2004
CeMbio - The Caenorhabditis elegans Microbiome Resource.
Philipp Dirksen , Adrien Assié , Johannes Zimmermann , Fan Zhang
G3: Genes, Genomes, Genetics 10 ( 9) 3025 -3039
14
2020
An age-dependent reversal in the protective capacities of JNK signaling shortens Caenorhabditis elegans lifespan.
Kwame Twumasi‐Boateng , Tim W. Wang , Linda Tsai , Kuang‐Hui Lee
Aging Cell 11 ( 4) 659 -667
29
2012
In vivo and in vitro resistance to multiple anticholinesterases in Xenopus laevis tadpoles.
Michael Shapira , Shlomo Seidman , Nadav Livni , Hermona Soreq
Toxicology Letters 102 205 -209
20
1998
ARP, a peptide derived from the stress-associated acetylcholinesterase variant, has hematopoietic growth promoting activities.
Dan Grisaru , Varda Deutsch , Michael Shapira , Marjorie Pick
Molecular Medicine 7 ( 2) 93 -105
86
2001
Caenorhabditis elegans pgp-5 is involved in resistance to bacterial infection and heavy metal and its regulation requires TIR-1 and a p38 map kinase cascade.
C. Léopold Kurz , Michael Shapira , Karen Chen , David L. Baillie
Biochemical and Biophysical Research Communications 363 ( 2) 438 -443
38
2007
Genetic and molecular analysis of nematode-microbe interactions
Man-Wah Tan , Michael Shapira
Cellular Microbiology 13 ( 4) 497 -507
43
2011
Molecular neurotoxicology implications of acetylcholinesterase inhibition
David Glick , Michael Shapira , Hermona Soreq
Taylor & Francis 116 -133
3
2002
Human osteogenesis involves differentiation-dependent increases in the morphogenically active 3' alternative splicing variant of acetylcholinesterase.
Dan Grisaru , Efrat Lev-Lehman , Michael Shapira , Ellen Chaikin
Molecular and Cellular Biology 19 ( 1) 788 -795
72
1999
Module networks: discovering regulatory modules and their condition specific regulators from gene expression data
Eran Segal , Michael Shapira , Aviv Regev , Dana Pe’er
Nat. Genet. v34 i2 166 -176
3
A transcription-activating polymorphism in the ACHE promoter associated with acute sensitivity to anti-acetylcholinesterases
Michael Shapira , Ilan Tur-Kaspa , Leonard Bosgraaf , Nadav Livni
Human Molecular Genetics 9 ( 9) 1273 -1281
84
2000
Autism, Stress, and Chromosome 7 Genes
Michael Shapira , David Glick , John R Gilbert , Hermona Soreq
Springer US 103 -113
1
2001
Minireview: Genetic manipulations of cholinergic communication reveal trans-acting control mechanisms over acetylcholine receptors
Ron S Broide , Mirta Grifman , Michael Shapira , Dalia Ginzberg
Journal of Receptors and Signal Transduction 17 ( 1-3) 279 -291
1
1997
Genetic analysis of Caenorhabditis elegans innate immunity
Michael Shapira , Man-Wah Tan
Innate immunity 429 -442
47
2008
Host preference of beneficial commensals in a microbially-diverse environment
Olga M Pérez-Carrascal , Rebecca Choi , Méril Massot , Barbara Pees
Frontiers in cellular and infection microbiology 832 -832
16
2022
Stress effects on immunity in vertebrates and invertebrates
Michael Shapira
Stress-From Mol. to Behav 207 -227
3
2010