about
Chondroitin sulfate proteoglycans are structural renewable constituents of the rabbit vitreous body.Morphological and autoradiographic studies on the corneal and limbal epithelium of rabbits.Effect of Melatonin Intake on Oxidative Stress Biomarkers in Male Reproductive Organs of Rats under Experimental Diabetes.Impact of the Processes of Total Testicular Regression and Recrudescence on the Epididymal Physiology of the Bat Myotis nigricans (Chiroptera: Vespertilionidae).Influence of Melatonin on the Proliferative and Apoptotic Responses of the Prostate under Normal and Hyperglycemic Conditions.Structural and ultrastructural evidence for telocytes in prostate stromaPrenatal and pubertal testosterone exposure imprint permanent modifications in the prostate that predispose to the development of lesions in old Mongolian gerbils.Key participants of the tumor microenvironment of the prostate: an approach of the structural dynamic of cellular elements and extracellular matrix components during epithelial-stromal transition.Intrauterine exposure to oestradiol promotes sex-specific differential effects on the prostatic development of neonate gerbils.Corticosterone influences gerbil (Meriones unguiculatus) prostatic morphophysiology and alters its proliferation and apoptosis rates.Postnatal development of Mongolian gerbil female prostate: An immunohistochemical and 3D modeling study.Two periods of total testicular regression are peculiar events of the annual reproductive cycle of the black Myotis bat, Myotis nigricans (Chiroptera: Vespertilionidae).AKT and AMPK activation after high-fat and high-glucose in vitro treatment of prostate epithelial cells.Budding process during the organogenesis of the ventral prostatic lobe in Mongolian gerbil.Ovariectomy increases the phenotypic plasticity of the female prostate epithelium in the Mongolian gerbil (Meriones unguiculatus).The Expression of the Androgen Receptor and Estrogen Receptor 1 is Related to Sex Dimorphism in the Gerbil Prostate Development.Melatonin intake since weaning ameliorates steroidogenic function and sperm motility of streptozotocin-induced diabetic rats.Differential ontogenetic exposure to obesogenic environment induces hyperproliferative status and nuclear receptors imbalance in the rat prostate at adulthood.Impact of the processes of testicular regression and recrudescence in the prostatic complex of the bat Myotis nigricans (Chiroptera: Vespertilionidae).Sexual maturation of the Mongolian gerbil (Meriones unguiculatus): a histological, hormonal and spermatic evaluation.Structure, histochemistry, and ultrastructure of the epithelium and stroma in the gerbil (Meriones unguiculatus) female prostate.Regeneration of the corneal epithelium after debridement of its central region: an autoradiographic study on rabbits.Inhibition of 5-alpha-reductase activity induces stromal remodeling and smooth muscle de-differentiation in adult gerbil ventral prostate.Intraepithelial alterations in the guinea pig lateral prostate at different ages after estradiol treatment.Tissue remodeling in Guinea pig lateral prostate at different ages after estradiol treatment.Prenatal exposure to ethinylestradiol alters the morphologic patterns and increases the predisposition for prostatic lesions in male and female gerbils during ageing.Pubertal exposure to ethinylestradiol promotes different effects on the morphology of the prostate of the male and female gerbil during aging.Cellular and extracellular behavior in the gerbil (Meriones unguiculatus) ventral prostate following different types of castration and the consequences of testosterone replacement.Dual action of high estradiol doses on MNU-induced prostate neoplasms in a rodent model with high serum testosterone: Protective effect and emergence of unstable epithelial microenvironment.Estrogen receptors alpha and beta in male and female gerbil prostates.Testosterone promotes an anabolic increase in the rat female prostate (Skene's paraurethral gland) which acquires a male ventral prostate phenotype.Tissue changes in senescent gerbil prostate after hormone deprivation leads to acquisition of androgen insensitivity.Proliferation and apoptotic rates and increased frequency of p63-positive cells in the prostate acinar epithelium of alloxan-induced diabetic rats.Prostate carcinogenesis induced by N-methyl-N-nitrosourea (mnu) in gerbils: histopathological diagnosis and potential invasiveness mediated by extracellular matrix components.Diabetes induces stromal remodelling and increase in chondroitin sulphate proteoglycans of the rat ventral prostate.Progesterone restores the female prostate activity in ovariectomized gerbil and may act as competitor of testosterone in intraprostatic environment.Increased androgen receptor and remodeling in the prostatic stroma after the inhibition of 5-alpha reductase and aromatase in gerbil ventral prostate.Microscopic evaluation of proliferative disorders in the gerbil female prostate: evidence of aging and the influence of multiple pregnancies.Tissue alterations in the Guinea pig lateral prostate following antiandrogen flutamide therapy.Acid phosphatase activity in gerbil prostate: comparative study in male and female during postnatal development.
P50
Q33219552-BE849358-D640-4771-A385-740648DE9413Q33316074-E963A5DC-7F64-4B9E-8258-FDE70F7FA6BDQ35625942-432FB045-B367-4C7F-8B27-2F7C6C31FAF0Q35658028-F7401FEB-B5B5-47C9-8CC1-E3AA8B7E0886Q35947279-E1730DAF-29B4-4159-A380-93E28941A482Q37295029-7B7BA471-BEFE-4FCC-81DD-C6DEF40373C2Q37644650-FD471C69-ACF1-48E2-9A87-22AC4F7FA544Q38281640-67C467CD-D022-4DD4-8D8C-E7FA845DA6C1Q38662731-686E9A00-F952-4A72-8213-BFAF0C9F3A9AQ38700876-B60A4CD4-B59F-49A3-9A0A-6224E997758CQ38895833-7BF40708-5512-43F9-BF64-6A7F5A00D952Q38899874-F8A284AA-26A7-46CE-95E5-08C7E4C61339Q38998196-05DA4995-903B-4D76-BBD2-33C8B12E520CQ39205990-C74C6DC2-A68C-4C5C-B51D-CDA8471B541AQ39294370-F568EA14-DF11-43C5-AC83-F18774EFEF8FQ39762453-7D71ADFB-D226-4D23-AE1D-5F4B81F46409Q39870197-54E406EF-7761-4040-AB1E-CD4431D4C769Q40021711-5861DB62-E579-4A3B-A44E-8ED3194C8467Q41373073-764FC5E3-C7E8-4469-89AA-28D6B3D6CFB5Q41748393-EBE543F9-7C09-4AFC-9B29-29D79F6D6153Q42451881-75F5F5F5-19FB-44DB-B7FC-D10E024DF27DQ42462645-AD58ED5B-43D0-47E9-BA91-0AB7D5614FFDQ42465115-75B10D1E-34C7-4586-AD7F-7900F7EB8CD4Q42470826-4C70E102-BEED-49D9-9037-C17A747E5191Q42482562-1374A1D5-FA2D-419E-A5A3-8EE41AA53E2CQ42488720-DFF6D53A-FE72-422A-B5F5-8D6A2D9646E6Q42489971-BE0C4B14-9FE6-4F51-A14B-7E0ABBF20147Q42504572-82181A8C-7A46-4E57-A634-82335A27BD8AQ42508411-4B93A15F-AF27-4BFA-9048-E6C2F673D4ACQ42516532-3DA4C462-44BD-4CE1-A768-3397F36890D8Q42911254-9C57EA9D-8D9C-4A89-B3A8-2A74924AB1AEQ43114709-6D56AF4C-C779-4E41-9678-BCB37FB6FECFQ43204884-A626E50F-A40B-4C02-A7F6-2DEFBDAB103AQ43264214-EE786DE5-23DC-4EE0-8EEF-A48199CEF731Q43297642-4C1E4EB3-5F33-4414-96B8-D0D60F6C3FA4Q43493795-E8BA43D7-965C-4264-BFA9-A6F6561F652DQ44002372-8EBAAC22-FC61-42FC-BA55-CBE483FFF19BQ44698011-8B2BE907-0465-4FED-9992-D41934485C65Q44920405-56CEDF71-A346-46C2-8072-AA79712B5E99Q44933175-C9114F1C-2C79-4253-9E07-C503FBA580B8
P50
description
hulumtuese
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Rejane M Góes
@ast
Rejane M Góes
@en
Rejane M Góes
@es
Rejane M Góes
@nl
Rejane M Góes
@sl
type
label
Rejane M Góes
@ast
Rejane M Góes
@en
Rejane M Góes
@es
Rejane M Góes
@nl
Rejane M Góes
@sl
altLabel
Rejane Maira Góes
@en
prefLabel
Rejane M Góes
@ast
Rejane M Góes
@en
Rejane M Góes
@es
Rejane M Góes
@nl
Rejane M Góes
@sl
P1053
H-7954-2012
P106
P21
P31
P3829
P496
0000-0002-3622-460X