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Welcome to the Pubget Medical Subject Headings (MESH) browser. Click on a topic or subtopic below to explore related papers. In the gold box is the most recent paper about the current MESH term, and below are 20 related papers.
Caenorhabditis elegans (0):
Recent article
Caenorhabditis elegans
Journal of Biological Chemistry (285)30 2010
Abstract
We were interested in the role of the C. elegans protein WSP-1 in the adult nematode. In this report, we show that a deletion mutant of wsp-1 exhibits a strong sensitivity to the neuromuscular inhibitor aldicarb. Transgenic rescue experiments demonstrated that neuronal expression of WSP-1 rescued th...
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PMID: 20501656
PDF is available here.
PDF is available here.
| < More recent | Older article > |
Abstract
We therefore examined chromosomes with insertions and found that they preferentially segregated away from the X chromosome during meiosis in Caenorhabditis elegans males. Conversely, chromosomes with deletions preferentially segregated with the X chromosome. The degree of segregation bias was signif...
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PMID: 20647459
PDF is available here.
PDF is available here.
Abstract
We describe KIAA1018, an evolutionarily conserved protein that has an N-terminal ubiquitin-binding zinc finger (UBZ) and a C-terminal nuclease domain. KIAA1018 is a 5'-->3' exonuclease and a structure-specific endonuclease that preferentially incises 5' flaps. Like cells from FA patients, human cell...
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PMID: 20603016
PDF is available here.
PDF is available here.
Abstract
Heat shock proteins (Hsp) are a family of stress proteins, which are elicited in response to a variety of stressors in organisms. The objective of this study was to explore the potential of cypermethrin, a synthetic pyrethroid insecticide, on induction of small heat shock proteins (Hsp16) and feedin...
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PMID: 20417559
PDF is available here.
PDF is available here.
Abstract
We find that male C. elegans worms are much more sensitive than hermaphrodites to oxidative stress and show that the DM domain transcription factor MAB-3 plays a pivotal role in determining this male hypersensitivity. The hypersensitivity to oxidative stress does not depend on the dosage of X chromo...
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PMID: 20498281
PDF is available here.
PDF is available here.
Molecular Pharmacology (78)1 2010
Abstract
We demonstrate that AMPH produces SWIP in a time- and dose-dependent manner in wild-type (wt) animals but has a reduced ability to generate SWIP in DAT knock out worms (dat-1). To determine whether D1-like and/or D2-like receptors are involved in AMPH-induced SWIP, we performed experiments in DOP-1...
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PMID: 20410438
PDF is available here.
PDF is available here.
Molecular Pharmacology (78)1 2010
Abstract
We demonstrate that AMPH produces SWIP in a time- and dose-dependent manner in wild-type (wt) animals but has a reduced ability to generate SWIP in DAT knock out worms (dat-1). To determine whether D1-like and/or D2-like receptors are involved in AMPH-induced SWIP, we performed experiments in DOP-1...
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PMID: 20410438
PDF is available here.
PDF is available here.
Molecular Pharmacology (78)1 2010
Abstract
We demonstrate that AMPH produces SWIP in a time- and dose-dependent manner in wild-type (wt) animals but has a reduced ability to generate SWIP in DAT knock out worms (dat-1). To determine whether D1-like and/or D2-like receptors are involved in AMPH-induced SWIP, we performed experiments in DOP-1...
|
PMID: 20410438
PDF is available here.
PDF is available here.
Molecular Pharmacology (78)1 2010
Abstract
We demonstrate that AMPH produces SWIP in a time- and dose-dependent manner in wild-type (wt) animals but has a reduced ability to generate SWIP in DAT knock out worms (dat-1). To determine whether D1-like and/or D2-like receptors are involved in AMPH-induced SWIP, we performed experiments in DOP-1...
|
PMID: 20410438
PDF is available here.
PDF is available here.
Molecular Pharmacology (78)1 2010
Abstract
We demonstrate that AMPH produces SWIP in a time- and dose-dependent manner in wild-type (wt) animals but has a reduced ability to generate SWIP in DAT knock out worms (dat-1). To determine whether D1-like and/or D2-like receptors are involved in AMPH-induced SWIP, we performed experiments in DOP-1...
|
PMID: 20410438
PDF is available here.
PDF is available here.
Molecular Pharmacology (78)1 2010
Abstract
We demonstrate that AMPH produces SWIP in a time- and dose-dependent manner in wild-type (wt) animals but has a reduced ability to generate SWIP in DAT knock out worms (dat-1). To determine whether D1-like and/or D2-like receptors are involved in AMPH-induced SWIP, we performed experiments in DOP-1...
|
PMID: 20410438
PDF is available here.
PDF is available here.
Molecular Pharmacology (78)1 2010
Abstract
We demonstrate that AMPH produces SWIP in a time- and dose-dependent manner in wild-type (wt) animals but has a reduced ability to generate SWIP in DAT knock out worms (dat-1). To determine whether D1-like and/or D2-like receptors are involved in AMPH-induced SWIP, we performed experiments in DOP-1...
|
PMID: 20410438
PDF is available here.
PDF is available here.
Molecular Pharmacology (78)1 2010
Abstract
We demonstrate that AMPH produces SWIP in a time- and dose-dependent manner in wild-type (wt) animals but has a reduced ability to generate SWIP in DAT knock out worms (dat-1). To determine whether D1-like and/or D2-like receptors are involved in AMPH-induced SWIP, we performed experiments in DOP-1...
|
PMID: 20410438
PDF is available here.
PDF is available here.
Molecular Pharmacology (78)1 2010
Abstract
We demonstrate that AMPH produces SWIP in a time- and dose-dependent manner in wild-type (wt) animals but has a reduced ability to generate SWIP in DAT knock out worms (dat-1). To determine whether D1-like and/or D2-like receptors are involved in AMPH-induced SWIP, we performed experiments in DOP-1...
|
PMID: 20410438
PDF is available here.
PDF is available here.
Molecular Pharmacology (78)1 2010
Abstract
We demonstrate that AMPH produces SWIP in a time- and dose-dependent manner in wild-type (wt) animals but has a reduced ability to generate SWIP in DAT knock out worms (dat-1). To determine whether D1-like and/or D2-like receptors are involved in AMPH-induced SWIP, we performed experiments in DOP-1...
|
PMID: 20410438
PDF is available here.
PDF is available here.
Molecular Pharmacology (78)1 2010
Abstract
We demonstrate that AMPH produces SWIP in a time- and dose-dependent manner in wild-type (wt) animals but has a reduced ability to generate SWIP in DAT knock out worms (dat-1). To determine whether D1-like and/or D2-like receptors are involved in AMPH-induced SWIP, we performed experiments in DOP-1...
|
PMID: 20410438
PDF is available here.
PDF is available here.
Molecular Pharmacology (78)1 2010
Abstract
We demonstrate that AMPH produces SWIP in a time- and dose-dependent manner in wild-type (wt) animals but has a reduced ability to generate SWIP in DAT knock out worms (dat-1). To determine whether D1-like and/or D2-like receptors are involved in AMPH-induced SWIP, we performed experiments in DOP-1...
|
PMID: 20410438
PDF is available here.
PDF is available here.
Molecular Pharmacology (78)1 2010
Abstract
We demonstrate that AMPH produces SWIP in a time- and dose-dependent manner in wild-type (wt) animals but has a reduced ability to generate SWIP in DAT knock out worms (dat-1). To determine whether D1-like and/or D2-like receptors are involved in AMPH-induced SWIP, we performed experiments in DOP-1...
|
PMID: 20410438
PDF is available here.
PDF is available here.
Molecular Pharmacology (78)1 2010
Abstract
We demonstrate that AMPH produces SWIP in a time- and dose-dependent manner in wild-type (wt) animals but has a reduced ability to generate SWIP in DAT knock out worms (dat-1). To determine whether D1-like and/or D2-like receptors are involved in AMPH-induced SWIP, we performed experiments in DOP-1...
|
PMID: 20410438
PDF is available here.
PDF is available here.
Molecular Pharmacology (78)1 2010
Abstract
We demonstrate that AMPH produces SWIP in a time- and dose-dependent manner in wild-type (wt) animals but has a reduced ability to generate SWIP in DAT knock out worms (dat-1). To determine whether D1-like and/or D2-like receptors are involved in AMPH-induced SWIP, we performed experiments in DOP-1...
|
PMID: 20410438
PDF is available here.
PDF is available here.
Molecular Pharmacology (78)1 2010
Abstract
We demonstrate that AMPH produces SWIP in a time- and dose-dependent manner in wild-type (wt) animals but has a reduced ability to generate SWIP in DAT knock out worms (dat-1). To determine whether D1-like and/or D2-like receptors are involved in AMPH-induced SWIP, we performed experiments in DOP-1...
|
PMID: 20410438
PDF is available here.
PDF is available here.
Molecular Pharmacology (78)1 2010
Abstract
We demonstrate that AMPH produces SWIP in a time- and dose-dependent manner in wild-type (wt) animals but has a reduced ability to generate SWIP in DAT knock out worms (dat-1). To determine whether D1-like and/or D2-like receptors are involved in AMPH-induced SWIP, we performed experiments in DOP-1...
|
PMID: 20410438
PDF is available here.
PDF is available here.
Molecular Pharmacology (78)1 2010
Abstract
We demonstrate that AMPH produces SWIP in a time- and dose-dependent manner in wild-type (wt) animals but has a reduced ability to generate SWIP in DAT knock out worms (dat-1). To determine whether D1-like and/or D2-like receptors are involved in AMPH-induced SWIP, we performed experiments in DOP-1...
|
PMID: 20410438
PDF is available here.
PDF is available here.
Molecular Pharmacology (78)1 2010
Abstract
We demonstrate that AMPH produces SWIP in a time- and dose-dependent manner in wild-type (wt) animals but has a reduced ability to generate SWIP in DAT knock out worms (dat-1). To determine whether D1-like and/or D2-like receptors are involved in AMPH-induced SWIP, we performed experiments in DOP-1...
|
PMID: 20410438
PDF is available here.
PDF is available here.
Molecular Pharmacology (78)1 2010
Abstract
We demonstrate that AMPH produces SWIP in a time- and dose-dependent manner in wild-type (wt) animals but has a reduced ability to generate SWIP in DAT knock out worms (dat-1). To determine whether D1-like and/or D2-like receptors are involved in AMPH-induced SWIP, we performed experiments in DOP-1...
|
PMID: 20410438
PDF is available here.
PDF is available here.