Membrane potential changes during mitogenic stimulation of mouse spleen lymphocytes.
about
Ca2+-activated K+ channels in human melanoma cells are up-regulated by hypoxia involving hypoxia-inducible factor-1alpha and the von Hippel-Lindau proteinVoltage-gated potassium channels are required for human T lymphocyte activationTargeting potassium channels in cancerHigh expression of KCa3.1 in patients with clear cell renal carcinoma predicts high metastatic risk and poor survival.Hoechst 33342 dye uptake as a probe of membrane permeability changes in mammalian cells.The T11 glycoprotein is functionally linked to a calcium channel in precursor and mature T-lineage cellspH homeostasis in human lymphocytes: modulation by ions and mitogen.Increased voltage-gated potassium conductance during interleukin 2-stimulated proliferation of a mouse helper T lymphocyte clone.Characterization of a membrane pore-forming protein from Entamoeba histolytica.B cell activation. I. Anti-immunoglobulin-induced receptor cross-linking results in a decrease in the plasma membrane potential of murine B lymphocytesB cell activation. III. B cell plasma membrane depolarization and hyper-Ia antigen expression induced by receptor immunoglobulin cross-linking are coupledHeterogeneity of lymphocyte calcium metabolism is caused by T cell-specific calcium-sensitive potassium channel and sensitivity of the calcium ATPase pump to membrane potential.Membrane potential depolarization and increased intracellular pH accompany the acrosome reaction of sea urchin sperm.A synaptic basis for T-lymphocyte activation.Crosslinking of the receptors for immunoglobulin E depolarizes the plasma membrane of rat basophilic leukemia cells.Calcium dependency of antigen-specific (T3-Ti) and alternative (T11) pathways of human T-cell activation.Mouse macrophage Fc receptor for IgG gamma 2b/gamma 1 in artificial and plasma membrane vesicles functions as a ligand-dependent ionophore.Membrane potential and cancer progression.Luminescence spectroscopic approaches in studying cell surface dynamics.Functional and molecular identification of intermediate-conductance Ca(2+)-activated K(+) channels in breast cancer cells: association with cell cycle progression.Factors influencing the accumulation of tetraphenylphosphonium cation in HeLa cellsMembrane permeability changes induce hyperpolarization in transformed lymphoid cells under high-density culture conditions.Resolution of cellular compartments involved in membrane potential changes accompanying IgE-mediated degranulation of rat basophilic leukemia cells.Membrane potential of mitochondria in intact lymphocytes during early mitogenic stimulation.Flow cytometric detection of membrane potential changes in murine lymphocytes induced by concanavalin A.Early plasma-membrane-potential changes during stimulation of lymphocytes by concanavalin AFactors determining the plasma-membrane potential of lymphocytes.Potentiometric study of resting potential, contributing K+ channels and the onset of Na+ channel excitability in embryonic rat cortical cells.Involvement of AMP-activated Protein Kinase (AMPK) in Regulation of Cell Membrane Potential in a Gastric Cancer Cell Line.Preparation and characterization in solution of oligonucleotides alkylated by activated carcinogenic polycyclic aromatic hydrocarbons.
P2860
Q24676422-5A0FCCE3-F19D-44F2-BA5E-2E51DABBFEF1Q24683224-2C2E5B12-9DB8-49E9-8C5D-64D5DDD1D4BBQ33937726-277FE8E2-E343-4C6B-B97F-6A4124F2D22DQ35304761-74248E85-91D8-448E-9D6E-E8E4CE2D3617Q35307537-755C4078-107D-4052-A7D6-2679BA219F32Q35600317-835CD9BD-AA9E-4974-B6B8-0A3A3668D6C6Q36210298-404EC85C-4923-44FA-BAEF-054F7F8521FBQ36214888-C95AD5E7-90BD-41AB-9A5A-A69931CE2F2BQ36347252-50A35623-A13C-40D9-88E6-FB3E9DD29A0FQ36347865-AAE6D2EA-C59F-4562-8525-8358C322A29EQ36348181-54E126F3-4004-460B-8B65-B556B7484F1EQ36355320-6D8711B4-035C-4E45-8379-613FC87FDF8BQ36373422-3EC9647A-3B62-45D6-98C3-9C536C08A905Q36906626-FC0D62F6-6715-4674-8DB0-8AA4883E40A0Q37349716-12C4308E-35F9-4FCA-A8B2-D97283E377D1Q37576205-FB0A30F6-EA6E-4596-B2A2-A7150A82322DQ37606569-DE0E10A3-5C1D-4413-B467-9101DD630793Q38123808-2F1802DD-56E8-4AD1-87DD-CC2BF4CE67FBQ39571001-71C2D862-C886-490B-AED2-E7A3AE5BB9B3Q40585609-718E480F-DDC9-4D3C-AEAD-FFB5186CEF72Q40674348-088E2FE8-0F77-4E07-AA5E-E8880BF0C000Q40847321-31C60E06-EE21-4F30-B1F0-386013530ADBQ41564186-42EDB84D-3120-403F-AEB5-F0E94F0A054FQ41887221-8B01D5F9-93F9-4DAD-8B0F-6A04D2E0E901Q42087311-9741C1AA-29B3-4111-969A-754EA2B78000Q42091301-192B112C-8DEC-4A8D-B734-486E197DCC25Q42874907-C2E5E8E2-B465-4FCC-BC56-4822F7743C9DQ48378420-BFC213EC-E4CB-437E-9313-1D9A8D88C5DFQ52584618-F1939BD0-556C-481D-93FF-D67DC422C21FQ53526158-40212A34-2D6B-48FC-A090-D454F07136D7
P2860
Membrane potential changes during mitogenic stimulation of mouse spleen lymphocytes.
description
1980 nî lūn-bûn
@nan
1980年の論文
@ja
1980年学术文章
@wuu
1980年学术文章
@zh-cn
1980年学术文章
@zh-hans
1980年学术文章
@zh-my
1980年学术文章
@zh-sg
1980年學術文章
@yue
1980年學術文章
@zh
1980年學術文章
@zh-hant
name
Membrane potential changes during mitogenic stimulation of mouse spleen lymphocytes.
@ast
Membrane potential changes during mitogenic stimulation of mouse spleen lymphocytes.
@en
type
label
Membrane potential changes during mitogenic stimulation of mouse spleen lymphocytes.
@ast
Membrane potential changes during mitogenic stimulation of mouse spleen lymphocytes.
@en
prefLabel
Membrane potential changes during mitogenic stimulation of mouse spleen lymphocytes.
@ast
Membrane potential changes during mitogenic stimulation of mouse spleen lymphocytes.
@en
P2860
P356
P1476
Membrane potential changes during mitogenic stimulation of mouse spleen lymphocytes.
@en
P2093
P2860
P304
P356
10.1073/PNAS.77.4.2200
P407
P577
1980-04-01T00:00:00Z