H T Cline
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Explore the profile of H T Cline including associated specialties, affiliations and a list of published articles.
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44
Citations
1986
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Recent Articles
1.
McKeown C, Thompson C, Cline H
J Exp Biol
. 2016 Nov;
220(Pt 3):358-368.
PMID: 27875263
Many organisms confront intermittent nutrient restriction (NR), but the mechanisms to cope with nutrient fluctuations during development are not well understood. This is particularly true of the brain, the development...
2.
Nedivi E, Javaherian A, Cantallops I, Cline H
J Comp Neurol
. 2001 Jun;
435(4):464-73.
PMID: 11406826
Mechanisms controlling dendritic arbor formation affect the establishment of neuronal circuits. Candidate plasticity gene 15 (CPG15) is a glycosylphosphatidyl inositol (GPI)-linked activity-induced protein that has been shown to function as...
3.
Haas K, Sin W, Javaherian A, Li Z, Cline H
Neuron
. 2001 Apr;
29(3):583-91.
PMID: 11301019
We report an electroporation technique for targeting gene transfer to individual cells in intact tissue. Electrical stimulation through a micropipette filled with DNA or other macromolecules electroporates a single cell...
4.
Cline H
Curr Opin Neurobiol
. 2001 Feb;
11(1):118-26.
PMID: 11179881
In vivo studies indicate that synaptic activity promotes dendritic arbor elaboration at early stages of brain development. At later stages of development, synaptic activity stabilizes dendritic structure. The different roles...
5.
Cantallops I, Haas K, Cline H
Nat Neurosci
. 2000 Oct;
3(10):1004-11.
PMID: 11017173
The formation of CNS circuits is characterized by the coordinated development of neuronal structure and synaptic function. The activity-regulated candidate plasticity gene 15 (cpg15) encodes a glycosylphosphatidylinositol (GPI)-linked protein whose...
6.
Cantallops I, Cline H
Curr Biol
. 2000 Sep;
10(17):R620-3.
PMID: 10996085
Neuroligin and neurexin form an intercellular adhesion complex sufficient to trigger formation of functional presynaptic elements in vitro. This single molecular interaction appears to initiate clustering of synaptic vesicles, assembly...
7.
Li Z, Van Aelst L, Cline H
Nat Neurosci
. 2000 Mar;
3(3):217-25.
PMID: 10700252
The development and structural plasticity of dendritic arbors are governed by several factors, including synaptic activity, neurotrophins and other growth-regulating molecules. The signal transduction pathways leading to dendritic structural changes...
8.
Kay A, Alfonso A, Alford S, Cline H, Holgado A, Sakmann B, et al.
Neuron
. 2000 Jan;
24(4):809-17.
PMID: 10624945
The fluorescent probe FM1-43 has been used extensively for imaging vesicle recycling; however, high nonspecific adsorption resulting in elevated background levels has precluded its use in certain tissues, notably brain...
9.
Zou D, Cline H
J Neurosci
. 1999 Oct;
19(20):8909-18.
PMID: 10516310
Neuronal dendritic and axonal arbors grow to a characteristic size and then stabilize their structures. Activity-dependent stop-growing signals may limit neuronal process elaboration. We tested whether endogenous calcium/calmodulin-dependent protein kinase...
10.
Edwards J, Cline H
J Neurophysiol
. 1999 Feb;
81(2):895-907.
PMID: 10036287
Visual activity is thought to be a critical factor in controlling the development of central retinal projections. Neuronal activity increases cytosolic calcium, which was hypothesized to regulate process outgrowth in...