scholarly article | Q13442814 |
P356 | DOI | 10.1152/AJPHEART.01266.2008 |
P8608 | Fatcat ID | release_7dezypnurnatbgtj3k2o6xrf3a |
P932 | PMC publication ID | 2685333 |
P698 | PubMed publication ID | 19252086 |
P5875 | ResearchGate publication ID | 24146623 |
P50 | author | Roberto Ariel Gomez | Q64590656 |
Ellen S Pentz | Q115631504 | ||
Magali Cordaillat | Q115631512 | ||
P2093 | author name string | Maria Luisa S Sequeira Lopez | |
Xuan Jin | |||
P2860 | cites work | Adenoviral ElA-associated protein p300 as a functional homologue of the transcriptional co-activator CBP | Q59095054 |
Cyclic AMP selectively increases renin mRNA stability in cultured juxtaglomerular granular cells | Q72571641 | ||
Renin enhancer is crucial for full response in Renin expression to an in vivo stimulus | Q81229165 | ||
Translating the Histone Code | Q22065840 | ||
Nuclear protein CBP is a coactivator for the transcription factor CREB | Q24319801 | ||
Conditional knockout mice reveal distinct functions for the global transcriptional coactivators CBP and p300 in T-cell development | Q24537650 | ||
CBP/p300 in cell growth, transformation, and development | Q28140313 | ||
Extensive brain hemorrhage and embryonic lethality in a mouse null mutant of CREB-binding protein | Q28141517 | ||
Phosphorylated CREB binds specifically to the nuclear protein CBP | Q28265019 | ||
Gene dosage-dependent embryonic development and proliferation defects in mice lacking the transcriptional integrator p300 | Q28270979 | ||
Rubinstein-Taybi syndrome caused by mutations in the transcriptional co-activator CBP | Q28295041 | ||
Homeostasis in mice with genetically decreased angiotensinogen is primarily by an increased number of renin-producing cells | Q28585261 | ||
Cooperation between complexes that regulate chromatin structure and transcription | Q29614769 | ||
Ablation of renin-expressing juxtaglomerular cells results in a distinct kidney phenotype | Q30311914 | ||
Renin cells are precursors for multiple cell types that switch to the renin phenotype when homeostasis is threatened | Q30433495 | ||
Identity of the renin cell is mediated by cAMP and chromatin remodeling: an in vitro model for studying cell recruitment and plasticity | Q30445131 | ||
Renin release and gene expression in intact rat kidney microvessels and single cells | Q30449825 | ||
Recruitment of renin gene-expressing cells in adult rat kidneys | Q30454853 | ||
Renin and angiotensinogen gene expression and intrarenal renin distribution during ACE inhibition | Q30460838 | ||
Developmental consequences of the renin-angiotensin system | Q30464443 | ||
Zis: a developmentally regulated gene expressed in juxtaglomerular cells. | Q30471313 | ||
Posttranscriptional control of renin synthesis: identification of proteins interacting with renin mRNA 3'-untranslated region | Q31132582 | ||
The Swi/Snf family nucleosome-remodeling complexes and transcriptional control | Q33974577 | ||
Renin enhancer is critical for control of renin gene expression and cardiovascular function. | Q34555338 | ||
Critical roles of a cyclic AMP responsive element and an E-box in regulation of mouse renin gene expression. | Q38296694 | ||
The pharmacologic alteration of renin release. | Q40303943 | ||
Cyclic AMP stimulates renin gene transcription in juxtaglomerular cells | Q40719308 | ||
Regulation of renin synthesis in the juxtaglomerular cells. | Q41133666 | ||
Decreased intracellular calcium stimulates renin release via calcium-inhibitable adenylyl cyclase | Q42503829 | ||
Ren1d and Ren2 cooperate to preserve homeostasis: evidence from mice expressing GFP in place of Ren1d | Q43632146 | ||
Generation of a conditional allele of the CBP gene in mouse | Q44296681 | ||
Embryonic origin and lineage of juxtaglomerular cells | Q44882484 | ||
Ren1c homozygous null mice are hypotensive and polyuric, but heterozygotes are indistinguishable from wild-type | Q45162612 | ||
Loss of CBP causes T cell lymphomagenesis in synergy with p27Kip1 insufficiency. | Q48006079 | ||
Renin-1 Is Essential for Normal Renal Juxtaglomerular Cell Granulation and Macula Densa Morphology | Q50947288 | ||
A family of transcriptional adaptor proteins targeted by the E1A oncoprotein | Q59070933 | ||
P433 | issue | 5 | |
P304 | page(s) | H1255-62 | |
P577 | publication date | 2009-02-27 | |
P1433 | published in | American Journal of Physiology Heart and Circulatory Physiology | Q3193662 |
P1476 | title | CBP and p300 are essential for renin cell identity and morphological integrity of the kidney | |
P478 | volume | 296 |
Q30411663 | Adult renal mesenchymal stem cell-like cells contribute to juxtaglomerular cell recruitment. |
Q30279009 | Aldo-keto reductase 1b7, a novel marker for renin cells, is regulated by cyclic AMP signaling |
Q43045761 | Are microRNAs the key to transforming renin progenitor cells in the afferent renal circulation? |
Q38709069 | Bradykinin/B2 receptor activation regulates renin in M-1 cells via protein kinase C and nitric oxide |
Q43123685 | CBP and p300 in renin homeostasis: can they drive the fate? |
Q38768250 | Chronic kidney disease in children and the role of epigenetics: Future therapeutic trajectories |
Q34065655 | Classical Renin-Angiotensin system in kidney physiology |
Q38009234 | Control of renin [corrected] gene expression |
Q37975085 | Control of renin synthesis and secretion |
Q30423671 | Development of the renal arterioles |
Q48137033 | Dynamic regulation of lysine acetylation: the balance between acetyltransferase and deacetylase activities |
Q28079434 | Epigenetics of Renal Development and Disease |
Q34104784 | Expression patterns of histone acetyltransferases p300 and CBP during murine tooth development |
Q30274887 | Fate of Renin Cells During Development and Disease |
Q34625920 | Fetal environment, epigenetics, and pediatric renal disease |
Q45062385 | Foxd1 is an upstream regulator of the renin-angiotensin system during metanephric kidney development |
Q30423667 | Genes that confer the identity of the renin cell |
Q37783542 | Genetics of congenital anomalies of the kidney and urinary tract |
Q29347265 | Histone acetyl transferases CBP and p300 are necessary for maintenance of renin cell identity and transformation of smooth muscle cells to the renin phenotype |
Q41851966 | Histone deacetylases are critical regulators of the renin-angiotensin system during ureteric bud branching morphogenesis |
Q39627130 | Histone modifications contribute to cellular replicative and hydrogen peroxide-induced premature senescence in human embryonic lung fibroblasts |
Q37528712 | Histone posttranslational modifications and cell fate determination: lens induction requires the lysine acetyltransferases CBP and p300. |
Q49875472 | Homeostatic response of mouse renin gene transcription in a hypertensive environment is mediated by a novel 5' enhancer |
Q30414729 | Identification of renin progenitors in the mouse bone marrow that give rise to B-cell leukaemia |
Q39319310 | Juxtaglomerular Cell Phenotypic Plasticity |
Q95660209 | KAT3-dependent acetylation of cell type-specific genes maintains neuronal identity in the adult mouse brain |
Q50458987 | Knock-down of p300 decreases the proliferation and odontogenic differentiation potentiality of HDPCs |
Q30384431 | Local renal circadian clocks control fluid-electrolyte homeostasis and BP |
Q30278394 | Loss of Jagged1 in renin progenitors leads to focal kidney fibrosis |
Q30428172 | Neuron- or glial-specific ablation of secreted renin does not affect renal renin, baseline arterial pressure, or metabolism |
Q30433325 | Novel mechanisms for the control of renin synthesis and release |
Q30416717 | Pericytes synthesize renin |
Q38327224 | Plasticity of renal endocrine function |
Q30361784 | Recombination signal binding protein for Ig-κJ region regulates juxtaglomerular cell phenotype by activating the myo-endocrine program and suppressing ectopic gene expression. |
Q42550738 | Regulation of renin gene expression by oxidative stress |
Q37799369 | Renin Release: Sites, Mechanisms, and Control |
Q49584053 | Renin cells in homeostasis, regeneration and immune defence mechanisms |
Q38141834 | Renin-angiotensin system in ureteric bud branching morphogenesis: implications for kidney disease |
Q37848136 | Renin-angiotensin system in ureteric bud branching morphogenesis: insights into the mechanisms |
Q92819681 | Stromal prorenin receptor is critical for normal kidney development |
Q56928499 | Super-enhancers maintain renin-expressing cell identity and memory to preserve multi-system homeostasis |
Q37683304 | Target gene context influences the transcriptional requirement for the KAT3 family of CBP and p300 histone acetyltransferases. |
Q30301266 | The earliest metanephric arteriolar progenitors and their role in kidney vascular development |
Q30433053 | The microRNA-processing enzyme dicer maintains juxtaglomerular cells |
Q30431545 | The renin phenotype: roles and regulation in the kidney |
Q30425307 | Transcriptional regulator RBP-J regulates the number and plasticity of renin cells |
Q30423068 | Two microRNAs, miR-330 and miR-125b-5p, mark the juxtaglomerular cell and balance its smooth muscle phenotype |
Q30278898 | Vascular versus tubular renin: role in kidney development |
Search more.