about
STRUCTURE-FUNCTION OF THE TUMOR SUPPRESSOR BRCA1Carbon monoxide neurotransmission activated by CK2 phosphorylation of heme oxygenase-2Psychological stress, cocaine and natural reward each induce endoplasmic reticulum stress genes in rat brainHeme oxygenase-2 is activated by calcium-calmodulinCharacterization of the inflammatory response during acute and post-acute phases after severe burnThe calmodulin regulator protein, PEP-19, sensitizes ATP-induced Ca2+ releaseGene identification and evidence for expression of G protein alpha subunits, phospholipase C, and an inositol 1,4,5-trisphosphate receptor in Aplysia californica rhinophore.FAD mutations in amyloid precursor protein do not directly perturb intracellular calcium homeostasis.Calcium and ER stress mediate hepatic apoptosis after burn injury.Monitoring dynamic changes in mitochondrial calcium levels during apoptosis using a genetically encoded calcium sensorT-cell receptor complex is essential for Fas signal transduction.Simvastatin potently induces calcium-dependent apoptosis of human leiomyoma cells.Association of the EF-hand and PH domains of the guanine nucleotide exchange factor SLAT with IP₃ receptor 1 promotes Ca²⁺ signaling in T cells.The BRCA1 tumor suppressor binds to inositol 1,4,5-trisphosphate receptors to stimulate apoptotic calcium release.Signaling Pathways in Leiomyoma: Understanding Pathobiology and Implications for TherapyNovel effects of simvastatin on uterine fibroid tumors: in vitro and patient-derived xenograft mouse model study.Severe injury is associated with insulin resistance, endoplasmic reticulum stress response, and unfolded protein response.Rapid and transient palmitoylation of the tyrosine kinase Lck mediates Fas signalingCaspase 3 cleavage of the inositol 1,4,5-trisphosphate receptor does not contribute to apoptotic calcium release.Role of heme oxygenase-2 in pial arteriolar response to acetylcholine in mice with and without transfusion of cell-free hemoglobin polymers.XBP-1s is linked to suppressed gluconeogenesis in the Ebb phase of burn injury.Severe burn-induced endoplasmic reticulum stress and hepatic damage in miceGeneration of spinal motor neurons from human fetal brain-derived neural stem cells: role of basic fibroblast growth factor.Ubiquilin-1 overexpression increases the lifespan and delays accumulation of Huntingtin aggregates in the R6/2 mouse model of Huntington's disease.Requirement of inositol 1,4,5-trisphosphate receptors for tumor-mediated lymphocyte apoptosis.Ubiquilin-1 and protein quality control in Alzheimer diseaseHepatitis C virus core protein increases mitochondrial ROS production by stimulation of Ca2+ uniporter activity.Molecular architecture of the inositol 1,4,5-trisphosphate receptor pore.Functionally redundant control of cardiac hypertrophic signaling by inositol 1,4,5-trisphosphate receptors.Circadian rhythms. Carbon monoxide and clocks.Chaperone-mediated reversible inhibition of the sarcomeric myosin power stroke.Membrane insertion, glycosylation, and oligomerization of inositol trisphosphate receptors in a cell-free translation systemFactors determining the composition of inositol trisphosphate receptor hetero-oligomers expressed in COS cellsFunctional properties of recombinant type I and type III inositol 1, 4,5-trisphosphate receptor isoforms expressed in COS-7 cellsEffect of insulin on the inflammatory and acute phase response after burn injury
P50
Q24600363-35FF059E-0C59-41D1-9080-7D290E51A9B5Q28207338-E085E074-6B06-44AE-A802-58A5A10F56C9Q28574128-1F603B3A-CC0A-4B91-BE0C-06B5C8E69F59Q28577171-998441B4-EDBF-4F30-819C-F1406AD6BB07Q28579207-000574FA-E6D3-4371-8FDB-625876BBD89BQ30668614-237ADAF7-0B6D-412A-B2D2-77A947FA7123Q33284501-B29AEE1E-413A-4F32-B9BB-7F719B3A50DAQ33654285-BCC12394-02F3-4C21-8D82-4E6062E25FFAQ33793882-BCF17712-E3E2-4894-B964-0B573F4FA4CCQ33872070-E5B4247C-0486-466E-B441-92F0FF9B0E3EQ34093608-60AE9B68-A7E7-47A8-AA4A-9493EE5080A4Q34737702-D147A20F-F851-44D7-A2E1-AF58E3258EE2Q34989057-584056C7-44B2-4CAE-A82D-398F6FA18DE2Q35172714-E7C99574-DB4A-47F2-A5C7-8E58C2B9E2AFQ35855640-38E47E4D-9F2E-42C1-A283-83203CAAF953Q35901096-62A0C93F-6DBD-4069-A673-FE78B1F37A48Q36090240-D0C5045F-A113-4744-82B0-891C1A8F95D6Q36103040-10355170-2CDA-49D8-A669-1016AAB0A664Q36609490-5855486F-EEFD-486B-B655-164158C6FFB4Q36846678-530F4D2F-25D9-496B-B55E-DD541099822AQ36885658-5EABC3A5-C9B6-4F61-ABA2-99A84CD65022Q37260887-919EA055-94CE-4D6E-8AAD-A3289D7D4A82Q37335277-45FE7D14-DFCE-4E51-8D5B-063D4A42DC94Q37521285-15155045-48F2-4DFE-95FB-70CB29EC1ADDQ38291229-9F138F11-AC99-4DBF-BFA7-4CB36E4F010CQ39333014-5B9F890F-108F-42CA-B33B-4F0638CBCD1FQ40152885-3E81701B-BD8D-4657-A9DE-1242BC43F940Q42721064-A221E4DD-A0F7-4212-8422-473D300A8BAEQ47783365-8462666E-A642-4229-941C-9699CD22DC0FQ48421901-488F8E48-396A-4D57-96D9-9C81A4ADD072Q52653807-AADFFE3A-DAC1-4CA1-A0F7-1797F8EC7913Q71984944-2D79D36D-1B58-42E7-A1A1-6EB2C7B5093CQ73626293-931D1A0A-822C-4B01-90C9-F727D84E9850Q73675895-B5BA92FC-D3D8-4224-A14C-48363BCBCD80Q80829414-28E6A81A-9CD0-409A-8D95-1AAEBCD291F6
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Darren F Boehning
@es
Darren F. Boehning
@en
Darren F. Boehning
@nl
Darren F. Boehning
@sl
type
label
Darren F Boehning
@es
Darren F. Boehning
@en
Darren F. Boehning
@nl
Darren F. Boehning
@sl
prefLabel
Darren F Boehning
@es
Darren F. Boehning
@en
Darren F. Boehning
@nl
Darren F. Boehning
@sl
P1053
I-8539-2015
P106
P1153
6701611533
P21
P31
P3829
P496
0000-0001-7920-6922
P569
2000-01-01T00:00:00Z