Opposing actions of prostaglandins and oxytocin determine the onset of murine labor
about
Sperm and oocyte communication mechanisms controlling C. elegans fertilityMutant mouse models and their contribution to our knowledge of corpus luteum development, function and regressionOxytocin in the treatment of dystocia in miceWhy there are two cyclooxygenase isozymes.Prostaglandin signalling regulates ciliogenesis by modulating intraflagellar transportDifferential impact of prostaglandin H synthase 1 knockdown on platelets and parturition.Relationship between gene expression and function of uterotonic systems in the rat during gestation, uterine activation and both term and preterm labourAnnual Research Review: Transgenic mouse models of childhood-onset psychiatric disorders.Microsomal prostaglandin E2 synthase-1 is induced by conditional expression of RET/PTC in thyroid PCCL3 cells through the activation of the MEK-ERK pathway.Loss of cannabinoid receptor CB1 induces preterm birth.Impaired steroidogenesis and implantation failure in Bmal1-/- mice.Restoration of on-time embryo implantation corrects the timing of parturition in cytosolic phospholipase A2 group IVA deficient miceUterine-specific p53 deficiency confers premature uterine senescence and promotes preterm birth in mice.Cyclooxygenase-deficient mice. A summary of their characteristics and susceptibilities to inflammation and carcinogenesis.Epidermal growth factor prevents prepartum luteolysis in the ratNot a mouse stirring: deletion of the EP2 and love's labor's lostQuo vadis neurohypophysial hormone research?Fetal programming and environmental exposures: implications for prenatal care and preterm birthPG F(2α) Receptor: A Promising Therapeutic Target for Cardiovascular Disease.Biological roles of uterine glands in pregnancy.Uterine glands: biological roles in conceptus implantation, uterine receptivity and decidualization.Using transgenic mouse models to study oxytocin's role in the facilitation of species propagationProstanoid receptors: ontogeny and implications in vascular physiology.Placental leucine aminopeptidase- and aminopeptidase A- deficient mice offer insight concerning the mechanisms underlying preterm labor and preeclampsia.Roles of prostaglandin receptors in female reproduction.Insulin/FOXO signaling regulates ovarian prostaglandins critical for reproduction.Parturition and recruitment of macrophages in cervix of mice lacking the prostaglandin F receptorComprehensive expression analysis of prostanoid enzymes and receptors in the human endometrium across the menstrual cycleInadvertent social information and the avoidance of parasitized male mice: a role for oxytocin.Failure of ductus arteriosus closure and remodeling in neonatal mice deficient in cyclooxygenase-1 and cyclooxygenase-2.Cyclooxygenase-1-selective inhibition prolongs gestation in mice without adverse effects on the ductus arteriosus.An estrogen-dependent four-gene micronet regulating social recognition: a study with oxytocin and estrogen receptor-alpha and -beta knockout mice.Activation of Gq/11 in the mouse corpus luteum is required for parturition.Major malformations after first trimester exposure to aspirin and NSAIDs.Coordinated regulation of fetal and maternal prostaglandins directs successful birth and postnatal adaptation in the mouse.15-epi-lipoxin A4 reduces the mortality of prematurely born pups in a mouse model of infection-induced preterm birth.Oxytocin and social motivationCyclooxygenase enzymes and prostaglandins in pathology of the endometrium.Microparticle-based delivery of oxytocin receptor antisense DNA in the medial amygdala blocks social recognition in female mice.Oxidative stress and the induction of cyclooxygenase enzymes and apoptosis in the murine placenta.
P2860
Q24626882-14BFD0EE-7933-429B-A66F-9B045F42DF5EQ24799363-580483E1-6BB8-4E23-A158-367EBD08CA58Q26853484-2A49E53B-604F-490B-AA3C-31B2A5D6893CQ27863307-038688CB-7DBC-447C-8311-26A6C15B3964Q28114834-55195486-A54D-40B1-94A5-AE9BF9D4B8B3Q28210819-7ED56329-2DFA-4D13-BDBA-5D43C4922A61Q28577894-01444AFE-CA48-409E-B02F-FA1442B49936Q30469044-7087D70F-1CE1-43CD-AB5F-31C4A3A5049AQ33193878-F425C0BE-34B9-47FA-8877-294CAB1EE43BQ33373681-8BD0CAE5-2596-45F2-B446-8EE7C9020EF2Q33569435-B690DE3B-6A40-46BB-A7B4-D0E9FC696AC8Q33573813-17A95A35-F8D6-4C90-AD6F-476D2222D1BDQ33685598-E341CEA5-6047-4493-892A-454DE27AB574Q33834295-D5EC82C4-4178-473E-B8AA-8AE034B39BD0Q33841241-079C2C67-DE2C-499C-91CF-AA3DA3D3A6DFQ33852877-17D4AEA4-119C-4FE7-9317-D58B735EDBDBQ33906426-64B23D2C-9635-4291-A68C-C12DA03BB7CBQ34132919-40391C62-2A14-4BBE-B967-EDDB589BFC72Q34186949-639CA6D4-5E50-4E5F-831C-03521E03A9D8Q34343878-8FAE2A93-AD92-4FBD-9F21-FC7134C68D6BQ34349302-5C743D2B-BC0C-484D-967F-AAF351B2EFC2Q34354225-2E5D367B-A90A-467C-BDB8-DF1A5359C67FQ34407623-A587A29C-6640-47D2-A19C-EBC5E3648C8CQ34424588-FCA1291F-13DC-4DCD-A6B1-EBAE11DC2D61Q34452367-F2212898-9167-447A-B019-7D1108198D54Q34518533-34408B0A-077A-4847-B964-595377153B3CQ34543197-26B4B22D-8C76-4BB0-A83F-2EDFBF69D086Q34568806-EDA9B087-70F1-449A-930E-0E7A307862FDQ34573102-7C3289A8-EA09-4E95-B49A-F00388A5A182Q34644135-73A7D674-AE70-43C3-95C6-FA0A52085293Q34777113-761C06D8-78B5-4FD3-A889-FF2F6D645E37Q35023160-3A5C2B9D-9AFC-458A-B91E-0E50C5829354Q35054995-D4F0AAE3-0589-4C4F-B85C-45336474EB13Q35085118-783CE8AC-771F-442F-9228-D3BD8C20E79CQ35214960-132A9459-8376-4F8F-A59A-40F9F53E1664Q35236981-DD55BA92-96C5-494B-B4F6-AA11855A52C3Q35258669-13F1E2E0-8DF7-4807-892F-AE7334679703Q35581225-27D54228-D12B-4646-A13E-0605B40F75D0Q35721717-A3A46260-ABC1-4C8F-A9C3-15DB03171338Q35849259-83A60609-7FC9-48D2-A698-EC26EB4E3BAA
P2860
Opposing actions of prostaglandins and oxytocin determine the onset of murine labor
description
1998 nî lūn-bûn
@nan
1998年の論文
@ja
1998年学术文章
@wuu
1998年学术文章
@zh-cn
1998年学术文章
@zh-hans
1998年学术文章
@zh-my
1998年学术文章
@zh-sg
1998年學術文章
@yue
1998年學術文章
@zh
1998年學術文章
@zh-hant
name
Opposing actions of prostaglandins and oxytocin determine the onset of murine labor
@ast
Opposing actions of prostaglandins and oxytocin determine the onset of murine labor
@en
type
label
Opposing actions of prostaglandins and oxytocin determine the onset of murine labor
@ast
Opposing actions of prostaglandins and oxytocin determine the onset of murine labor
@en
prefLabel
Opposing actions of prostaglandins and oxytocin determine the onset of murine labor
@ast
Opposing actions of prostaglandins and oxytocin determine the onset of murine labor
@en
P2093
P2860
P356
P1476
Opposing actions of prostaglandins and oxytocin determine the onset of murine labor
@en
P2093
D M Nelson
L J Muglia
Y Sadovsky
P2860
P304
11875-11879
P356
10.1073/PNAS.95.20.11875
P407
P577
1998-09-01T00:00:00Z