C I Bargmann
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Explore the profile of C I Bargmann including associated specialties, affiliations and a list of published articles.
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62
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6915
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Recent Articles
1.
Nickell W, Pun R, Bargmann C, Kleene S
J Membr Biol
. 2002 Aug;
189(1):55-66.
PMID: 12202952
The genome of Caenorhabditis elegans contains representatives of the channel families found in both vertebrate and invertebrate nervous systems. However, it lacks the ubiquitous Hodgkin-Huxley Na+ channel that is integral...
2.
Lundquist E, Reddien P, Hartwieg E, Horvitz H, Bargmann C
Development
. 2001 Nov;
128(22):4475-88.
PMID: 11714673
The Caenorhabditis elegans genome contains three rac-like genes, ced-10, mig-2, and rac-2. We report that ced-10, mig-2 and rac-2 act redundantly in axon pathfinding: inactivating one gene had little effect,...
3.
Yu T, Bargmann C
Nat Neurosci
. 2001 Nov;
4 Suppl:1169-76.
PMID: 11687826
To reach their proper targets, axons rely upon the actions of highly conserved families of attractive and repulsive guidance molecules, including the netrins, Slits, semaphorins and ephrins. These guidance systems...
4.
Hao J, Yu T, Fujisawa K, Culotti J, Mitani S, Moulder G, et al.
Neuron
. 2001 Oct;
32(1):25-38.
PMID: 11604136
Robo receptors interact with ligands of the Slit family. The nematode C. elegans has one Robo receptor (SAX-3) and one Slit protein (SLT-1), which direct ventral axon guidance and guidance...
5.
Peckol E, Troemel E, Bargmann C
Proc Natl Acad Sci U S A
. 2001 Sep;
98(20):11032-8.
PMID: 11572964
Changes in the environment cause both short-term and long-term changes in an animal's behavior. Here we show that specific sensory experiences cause changes in chemosensory receptor gene expression that may...
6.
Dwyer N, Adler C, Crump J, LEtoile N, Bargmann C
Neuron
. 2001 Aug;
31(2):277-87.
PMID: 11502258
Odorant receptors and signaling proteins are localized to sensory cilia on olfactory dendrites. Using a GFP-tagged odorant receptor protein, Caenorhabditis elegans ODR-10, we characterized protein sorting and transport in olfactory...
7.
Gomez M, De Castro E, Guarin E, Sasakura H, Kuhara A, Mori I, et al.
Neuron
. 2001 May;
30(1):241-8.
PMID: 11343658
On a radial temperature gradient, C. elegans worms migrate, after conditioning with food, toward their cultivation temperature and move along this isotherm. This experience-dependent behavior is called isothermal tracking (IT)....
8.
Sagasti A, HISAMOTO N, Hyodo J, Matsumoto K, Bargmann C
Cell
. 2001 May;
105(2):221-32.
PMID: 11336672
A stochastic cell fate decision mediated by axon contact and calcium signaling causes one of the two bilaterally symmetric AWC neurons, either AWCL or AWCR, to express the candidate olfactory...
9.
Wes P, Bargmann C
Nature
. 2001 Apr;
410(6829):698-701.
PMID: 11287957
Caenorhabditis elegans senses at least five attractive odours with a single pair of olfactory neurons, AWC, but can distinguish among these odours in behavioural assays. The two AWC neurons are...
10.
Bargmann C
Genome Biol
. 2001 Feb;
2(2):REVIEWS1005.
PMID: 11182891
Two recent chromosome-wide screens for phenotypes caused by RNA-mediated interference (RNAi) in Caenorhabditis elegans have increased our understanding of essential genes in nematodes. These papers represent a major advance in...