about
Synthesis and intracellular transport of proteins in the exocrine pancreas of the frog (Rana esculenta). II. An in vitro study of the transport process and the influence of temperature.Premitotic DNA synthesis in the brain of the adult frog (Rana esculenta L.): an autoradiographic 3H-thymidine study.The adrenergic receptor subtypes present in frog (Rana esculenta) skin.Spontaneous otoacoustic emissions in the European edible frog (Rana esculenta): spectral details and temperature dependence.The delayed outward current compared in the heart of the frog (Rana esculenta) and the tortoise (Testudo germani) [proceedings][Topography of the tecto-tectal component of the main ipsilateral visual pathway of the frog (Rana esculenta L.)][Distribution of thyrotropin releasing hormone (TRH), alpha-melanocyte-stimulating hormone (alpha-MSH) and somatostatin in the skin of the green frog (Rana esculenta)][Double central projection of VIIIth cranial nerve in the frog (Rana esculenta L.)][Effect of some antibiotics on semi-circular canal activity in the frog (Rana esculenta)][Response of efferent vestibular fibers to horizontal rotation in frogs (Rana esculenta L.)]A Radioimmunoassay for plasma corticotropin in frogs (Rana esculenta L.).Appearance of sex hormone receptors in frog (Rana esculenta) tadpole skin during metamorphosis.Immunoreactive melanocyte-stimulating hormone (alpha-MSH) in the brain of the frog (Rana esculenta L.).[Functional relationships between the horizontal and vertical anterior semicircular canals in the labyrinth of the frog (Rana esculenta L.)]Topography of cutaneous spinal ganglion cells in the frog (Rana esculenta).Annual variations in the total lipid and protein content of the liver, fat body, ovary and plasma of the female frog (Rana esculenta L.).The current voltage relationship of the delayed outward current in the heart of the frog (Rana esculenta) and the tortoise (Testudo germani).Circannual and circadian rhythms in the concentration of corticosterone in the plasma of the edible frog (Rana esculenta L.).Characterization of a cytoplasmic androgen receptor in the male secondary sexual character of green frog (Rana esculenta).[Fiber-type morphology and function of the triads in frog (Rana esculenta) skeletal muscle)]Characteristics of slow potentials from the frog epiphysis (Rana esculenta); possible mass photoreceptor potentials.Effects of furosemide on sodium content and transport pool in frog skin (Rana esculenta): comparison with vasopressin and ouabain.Patch clamp on the luminal membrane of exocrine gland acini from frog skin (Rana esculenta) reveals the presence of cystic fibrosis transmembrane conductance regulator-like Cl- channels activated by cyclic AMPColour discrimination functions of the frog optic tectum (Rana esculenta).Morphological features of different regions in frog crista ampullaris (Rana esculenta).Alpha2-adrenoceptors inhibit antidiuretic hormone-stimulated Na+ absorption across tight epithelia (Rana esculenta).Fine structure of the fungiform papilla in a ranid frog (Rana esculenta).A gonadotropin-releasing hormone (GnRH) antagonist decreases androgen production and spermatogonial multiplication in frog (Rana esculenta): indirect evidence for the existence of GnRH or GnRH-like material receptors in the hypophysis and testis.Ultrastructure of venom glands in the frog (Rana esculenta).Correlation between transepithelial Na+ transport and transepithelial water movement across isolated frog skin (Rana esculenta).Physiological evidence for β3-adrenoceptor in frog (Rana esculenta) heart.Effects of D-aspartate treatment on D-aspartate oxidase, superoxide dismutase, and caspase 3 activities in frog (Rana esculenta) tissues.Light and electron microscope observations on the gastric mucosa of the frog (Rana esculenta). I. Normal structure.Light and electron microscope observations on auto- and heterophagy in the exocrine pancreas of the hibernating frog (Rana esculenta).[Biogenic amines in the brain of the frog (Rana esculenta)]Effect of testes removal and androgen replacement therapy on enzyme levels in hypothalamus and pituitary of frog (Rana esculenta).Effect of temperature and darkness on testosterone concentration in the testes of intact frogs (Rana esculenta) treated with gonadotrophin-releasing hormone analog (HOE 766).The effect of alternariol mycotoxin (AOH) on active sodium transport across frog skin (Rana esculenta).Light and electron microscope observations on the gastric mucosa of the frog (Rana esculenta). II. Structural alterations during hibernation.The occurrence of different kappa opioid receptors (K1 and K2) in frog (Rana esculenta) brain membranes.
P921
Q30874118-7607B241-44B1-4C8F-BD92-75FA5D5809E2Q34360858-12D0D532-45D8-4566-8D6B-5D6E07A90743Q34785826-C589899D-680F-476C-8A3E-FF083B4240DAQ38749845-65D4D029-BC66-4A59-AC3B-D9EC6223361CQ39504890-27F461BD-842C-442D-ABFE-726F176FC65BQ39670244-840D9BD9-EBAD-4F3A-B2FE-0D7FD7BD597FQ39676168-24672D01-05CE-4F25-9D7D-F11864BF6A5BQ39745685-BC633A40-4795-4968-8FF4-74B13254B4F7Q39745709-70AC638E-ED7F-4719-BFA4-3EAA1F8F843FQ39757616-311AE51E-622C-4EA2-B531-9E8BCCCC497DQ39932567-63AEBA55-0986-4672-8C51-ACEE0D36B066Q39947570-47B1AED0-94FE-488C-9EE7-271634C82F24Q40145637-9029BBA9-F8F1-498B-9340-E640C970B6F4Q40652984-925A777D-FDA6-4BB2-AF4B-13BC1D9B2E49Q40690005-40C8A689-E08C-4F44-89D9-EBE27A570B3BQ40690814-EC0DFB3A-E09F-47FC-976B-E3B7BC16AA2EQ40699476-0CD75D75-4BC3-409A-BEB8-F1C63C006457Q40706635-CF67A77A-BAF5-4090-8A18-F8B3EFEF9BC5Q40729533-399B8CFE-91F3-4BB9-83E4-941776C2C668Q40730590-0EC84BD3-8FEC-4656-AFFB-872D1FFD978EQ40734519-B8561290-D722-4596-89F0-2621E2531A9EQ41066036-E314D683-F679-43CC-A987-211F34CC8A17Q41938196-BA8485D7-AB1D-4DC4-8A20-B7AD56F8A8D9Q42113409-71FCC3A5-2616-4639-9CB4-CD9BDA1651AEQ42480493-6F031AC5-4C80-4A50-860C-028F9882FC02Q42508074-78AB266B-730D-49F6-AB8D-DF8587A217B5Q42515729-B2AC6DD0-A3B0-48D8-9D47-929C07D949F6Q42516187-ACBF0FD2-8B83-4CAE-A85F-632DEBE8C3D0Q42527143-9176B474-5088-4601-A0CF-C581CA400C61Q42664345-8DE29EF4-AF27-4E56-96ED-6ABE001B39CBQ42937579-F40F76A2-ECC3-447B-9D89-A1D52CE4BD91Q43011522-A130FBFF-0AAB-4026-9B6D-41983A28CA32Q43616982-6314E9EA-FE31-400E-9254-7D3989F06686Q43989541-FCD4011A-89AC-4CEC-A60E-A165149DD843Q44000490-B261E8C3-65BE-4831-8EA4-36F7BBC31438Q44009924-F0EF5B3F-E2A9-4230-B857-B3604E8869DBQ44078619-AD09F776-1CBC-4801-96B5-9FBCE58C1ACDQ44198989-ADC903EB-98CE-45FA-9CAE-A99BE306156EQ44228066-9E60A852-7616-4071-BEB7-ED1BDCC2ADD4Q44336665-E1A9E4DA-A48A-4F6F-9E17-7EFB8E4BB617
P921
description
Art der Gattung Echte Frösche (Rana)
@de
especie d'anfibiu
@ast
species of amphibian
@en
speiceas amfaibiach
@ga
taxon
@nl
вид земноводно
@bg
نوع من البرمائيات
@ar
name
Rana esculenta
@ast
Rana esculenta
@bg
Rana esculenta
@de
Rana esculenta
@en
Rana esculenta
@es
Rana esculenta
@fr
Rana esculenta
@ga
Rana esculenta
@it
Rana esculenta
@la
Rana esculenta
@nl
type
label
Rana esculenta
@ast
Rana esculenta
@bg
Rana esculenta
@de
Rana esculenta
@en
Rana esculenta
@es
Rana esculenta
@fr
Rana esculenta
@ga
Rana esculenta
@it
Rana esculenta
@la
Rana esculenta
@nl
prefLabel
Rana esculenta
@ast
Rana esculenta
@bg
Rana esculenta
@de
Rana esculenta
@en
Rana esculenta
@es
Rana esculenta
@fr
Rana esculenta
@ga
Rana esculenta
@it
Rana esculenta
@la
Rana esculenta
@nl
P1843
P486
P105
P171
P1843
Teichfrosch
@de
edible frog
@en
grenouille verte
@fr
middelste groene kikker
@nl
P225
Rana esculenta
P31
P4807
08fe860b-d7e7-4ba5-941c-9d4e09ab8b94
P486
P5019
wasserfrosch