Articles citing this paper
Control of Steroidogenesis in Small and Large Bovine Luteal. Cells
William Hansel, Hector W Alila, Joseph P Dowd and Xiangzhong Yang
40(3) pp.331 - 348
49 articles found in Crossref database.
Messenger ribonucleic acid expression for growth hormone receptor, luteinizing hormone receptor, and steroidogenic enzymes during the estrous cycle and pregnancy in porcine and bovine corpora lutea
Yuan W., Lucy M.C.
Domestic Animal Endocrinology. 1996 13(5). p.431
Global gene expression analysis indicates that small luteal cells are involved in extracellular matrix modulation and immune cell recruitment in the bovine corpus luteum
Baddela Vijay Simha,
Koczan Dirk,
Viergutz Torsten,
Vernunft Andreas, Vanselow Jens
Molecular and Cellular Endocrinology. 2018 474 p.201
PKA and AMPK Signaling Pathways Differentially Regulate Luteal Steroidogenesis
Przygrodzka Emilia,
Hou Xiaoying,
Zhang Pan,
Plewes Michele R,
Franco Rodrigo, Davis John S
Endocrinology. 2021 162(4).
Intercellular communication in the bovine corpus luteum
Pate J.L.
Theriogenology. 1996 45(7). p.1381
Signaling Mechanisms and Gene Expression in the Ovary (1991)
Oxytocin stimulates progesterone production by bovine granulosa cells isolated before, but not after, the luteinizing hormone surge
Voss A.K., Fortune J.E.
Molecular and Cellular Endocrinology. 1991 78(1-2). p.17
Gap junctional intercellular communication of bovine luteal cells from several stages of the estrous cycle: Effects of prostaglandin F2α, protein kinase C and calcium
Grazul-Bilska A.T.,
Reynolds L.P.,
Kirsch J.D.,
Bilski J.J., Redme D.A.
Prostaglandins. 1996 52(4). p.285
Luteotropic and luteolytic mechanisms in the bovine corpus luteum
Milvae R.A.,
Hinckley S.T., Carlson J.C.
Theriogenology. 1996 45(7). p.1327
Molecular Biology of the Female Reproductive System (1994)
Morfologia e grânulos citoplasmáticos do corpo lúteo de vacas aneloradas (Bos taurus indicus) gestantes e não gestantes
Vargas L.R.,
Xavier P.R.,
Rezende C.A.,
Neves M.M., Marques Júnior A.P.
Arquivo Brasileiro de Medicina Veterinária e Zootecnia. 2015 67(2). p.411
From Hyperkeratosis to Apoptosis: Lessons Learned from 65 Years of Research
Hansel William
Biology of Reproduction. 2012 87(1).
Cellular distribution of prostacyclin synthase and specific prostacyclin binding sites in bovine corpora lutea of pregnancy
Chegini N.,
Lei Z.M., Rao Ch.V.
Molecular and Cellular Endocrinology. 1990 71(2). p.133
After 65 Years, Research Is Still Fun
Hansel William
Annual Review of Animal Biosciences. 2013 1(1). p.1
Partial luteolysis during early diestrus in cattle downregulates VEGFA expression and reduces large luteal cell and corpus luteum sizes and plasma progesterone concentration
Trevisol E.,
Mogollón García H.D.,
Ackermann C.L.,
Lacerda W.,
Pires R.M.L.,
Laufer-Amorin R.,
Carvalho R.F.,
Franchi F.F.,
Castilho A.C.S.,
Rizzoto G.,
Kastelic J.P., Ferreira J.C.P.
Theriogenology. 2020 158 p.188
Luteinization of porcine thecal cells in vitro
Engelhardt Heidi,
Gore-Langton Robert E., Armstrong David T.
Molecular and Cellular Endocrinology. 1991 75(3). p.237
Bovine Reproduction (2021)
Histological Characterization and Immunohistochemical Localization of Ki‐67 and VEGF Factors in Bitches' Corpus Luteum at Cyclic and Early and Late Gestational Diestrous
Ribeiro AA,
Martin I,
Derussi AAP,
Ferioli RB,
Laufer‐Amorim R, Lopes MD
Reproduction in Domestic Animals. 2012 47(s6). p.61
Morphological characteristics of the bovine corpus luteum during the estrous cycle and pregnancy
Fields M.J., Fields P.A.
Theriogenology. 1996 45(7). p.1295
Mechanism(s) by which activation of protein kinase C is coupled to prostacyclin synthesis in granulosa cells
Veldhuis Johannes D., Demers Lawrence M.
Molecular and Cellular Endocrinology. 1989 63(1-2). p.219
Proceeding of the 1st International Conference on Tropical Agriculture (2017)
Preovulatory estradiol and the establishment and maintenance of pregnancy in suckled beef cows1
Jinks E. M.,
Smith M. F.,
Atkins J. A.,
Pohler K. G.,
Perry G. A.,
MacNeil M. D.,
Roberts A. J.,
Waterman R. C.,
Alexander L. J., Geary T. W.
Journal of Animal Science. 2013 91(3). p.1176
Effects of recombinant bovine somatotropin on pregnancy per artificial insemination, corpus luteum cellular composition and endometrial gland morphometry in beef cattle
Costa Natália Paulozzi,
Gonella-Diaza Angela,
Pugliesi Guilherme,
Cordeiro Maldonado Mariângela Bueno,
Scollari Saara Carollina,
Mello Barbara Piffero,
Feltrin Isabella,
Girotto Renato,
Castilho Caliê, Bertan Membrive Claudia Maria
Theriogenology. 2020 141 p.180
Induction of altered gene expression profiles in cultured bovine granulosa cells at high cell density
Baufeld Anja,
Koczan Dirk, Vanselow Jens
Reproductive Biology and Endocrinology. 2017 15(1).
mRNA microarray data of FACS purified bovine small and large luteal cells
Baddela Vijay S.,
Sharma Arpna,
Koczan Dirk,
Viergutz Torsten,
Vernunft Andreas, Vanselow Jens
Data in Brief. 2018 19 p.737
Luteinizing hormone regulates the phosphorylation and localization of the mitochondrial effector dynamin‐related protein‐1 (DRP1) and steroidogenesis in the bovine corpus luteum
Plewes Michele R.,
Hou Xiaoying,
Talbott Heather A.,
Zhang Pan,
Wood Jennifer R.,
Cupp Andrea S., Davis John S.
The FASEB Journal. 2020 34(4). p.5299
Effects of Selective Protein Kinase C Isozymes in Prostaglandin2α-Induced Ca2+ Signaling and Luteinizing Hormone-Induced Progesterone Accumulation in the Mid-Phase Bovine Corpus Luteum1
Sen Aritro,
Choudhary Ekta,
Inskeep E. Keith, Flores Jorge A.
Biology of Reproduction. 2005 72(4). p.976
Regulation of Luteal Regression: The Ewe as a Model
Hoyer Patricia B.
Journal of the Society for Gynecologic Investigation. 1998 5(2). p.49
Mechanisms of luteolysis in domestic livestock
Knickerbocker J.J.,
Wiltbank M.C., Niswender G.D.
Domestic Animal Endocrinology. 1988 5(2). p.91
Future prospectives on animal biotechnology
Hansel W., Godke R. A.
Animal Biotechnology. 1992 3(1). p.111
Early Pregnancy Signals in Domestic Animals a
HANSEL WILLIAM, HICKEY G. J.
Annals of the New York Academy of Sciences. 1988 541(1). p.472
Bovine Reproduction (2014)
Size distribution of bovine steroidogenic luteal cells during pregnancy
Arikan Ş, Yigit A.
Animal Science. 2001 73(2). p.323
Testicular Function After Local Injection of 6‐Hydroxydopamine or Norepinephrine in the Golden Hamster (Mesocricetus auratus)
MAYERHOFER ARTUR,
AMADOR ARMANDO G.,
STEGER RICHARD W., BARTKE ANDRZEJ
Journal of Andrology. 1990 11(3). p.301
Phorbol ester receptors in bovine luteal cells: relationship to protein kinase C
Dowd Joseph P.,
Alila Hector W., Hansel William
Molecular and Cellular Endocrinology. 1990 69(2-3). p.199
A comparison of the effects of cyclooxygenase prostanoids on progresterone production by small and large bovine luteal cells
Alila H.W.,
Corradino R.A., Hansel W.
Prostaglandins. 1988 36(2). p.259
Ultrastructure of the Ovary (1991)
Effects of season, incubation temperature and cell age on progesterone and prostaglandin F2α production in bovine luteal cells
Wolfenson D.,
Luft Orna,
Berman A., Meidan Rina
Animal Reproduction Science. 1993 32(1-2). p.27
Expression and Regulation of Relaxin-Like Factor Gene Transcripts in the Bovine Ovary: Differentiation-Dependent Expression in Theca Cell Cultures1
Bathgate Ross,
Moniac Nicole,
Bartlick Bettina,
Schumacher Matthias,
Fields Michael, Ivell Richard
Biology of Reproduction. 1999 61(4). p.1090
Differential effects of calcium on progesterone production in small and large bovine luteal cells
Alila H.W.,
Dayis J.S.,
Dowd J.P.,
Corradino R.A., Hansel W.
Journal of Steroid Biochemistry. 1990 36(6). p.687
Progesterone regulation of luteinizing hormone receptors on cultured bovine luteal cells
Jones L.S.,
Ottobre J.S., Pate J.L.
Molecular and Cellular Endocrinology. 1992 85(1-2). p.33
Protein kinase A and C activities and endogenous substrates in ovine small and large luteal cells
Hoyer Patricia B., Kong Wuyi
Molecular and Cellular Endocrinology. 1989 62(2). p.203
Target gene prediction and pathway analysis of miRNA targeted AMPK involved in lipid accumulation of bovine granulosa cell luteinization
Prastowo S,
Widyas N, Ratriyanto A
IOP Conference Series: Earth and Environmental Science. 2019 387(1). p.012011
Bovine corpus luteum function after removal of granulosa cells from the preovulatory follicle
Milvae R.A.,
Alila H.W.,
Bushmich S.L., Hansel W.
Domestic Animal Endocrinology. 1991 8(3). p.439
Noradrenaline affects secretory function of corpus luteum independently on prostaglandins in conscious cattle
Kotwica J.,
Skarzynski D.J.,
Jaroszewski J.J., Bogacki M.
Prostaglandins. 1994 48(1). p.1
Signaling Mechanisms and Gene Expression in the Ovary (1991)
Female Reproductive Physiology and Endocrinology of Cattle
Allen Garverick H., Smith Michael F.
Veterinary Clinics of North America: Food Animal Practice. 1993 9(2). p.223
Effect of polychlorinated biphenyls on the secretion of oxytocin from luteal and granulosa cells in cow: possible involvement of glucocorticoid receptors
Mlynarczuk J.J., Kotwica J.
Veterinární medicína. 2006 51(7). p.391
Regulation of CYP11A (P450SCC) and CYP17 (P450(17) alpha) gene expression in bovine luteal cells in primary culture
Lauber M.E.,
Bengtson T.,
Waterman M.R., Simpson E.R.
Journal of Biological Chemistry. 1991 266(17). p.11170
Calcium potentiates the effect of estradiol on PGF2α production in the bovine endometrium
Bertan Membrive Claudia Maria,
da Cunha Pauline Martins,
Meirelles Flávio Vieira, Binelli Mario
Journal of Animal Science and Biotechnology. 2014 5(1).
