about
Tracking pan-continental trends in environmental contamination using sentinel raptors-what types of samples should we use?Transition from ectothermy to endothermy: the development of metabolic capacity in a bird (Gallus gallus)Expression of microsomal triglyceride transfer protein in lipoprotein-synthesizing tissues of the developing chicken embryoEgg yolk fatty acid profile of avian species--influence on human nutrition.Temporal transcriptome analysis of the chicken embryo yolk sacNutrition and metabolism in poultry: role of lipids in early dietBoth apolipoprotein E and A-I genes are present in a nonmammalian vertebrate and are highly expressed during embryonic development.Overexpression of G0/G1 Switch Gene 2 in Adipose Tissue of Transgenic Quail Inhibits Lipolysis Associated with Egg Laying.In ovo uptake, metabolism, and tissue-specific distribution of chiral PCBs and PBDEs in developing chicken embryos.Lipoprotein receptors in extraembryonic tissues of the chicken.Spatial transcriptional profile of PepT1 mRNA in the yolk sac and small intestine in broiler chickens.In ovo exposure to omega-3 fatty acids does not enhance omega-3 long-chain polyunsaturated fatty acid metabolism in broiler chickens.Diet density during the first week of life: Effects on energy and nitrogen balance characteristics of broiler chickens.Lipids in maternal diet influence yolk hormone levels and post-hatch neophobia in the domestic chick.Individual and combined effects of in-ovo injection of creatine monohydrate and glucose on somatic characteristics, energy status, and posthatch performance of broiler embryos and hatchlings.Effects of breeder age, broiler strain, and eggshell temperature on development and physiological status of embryos and hatchlings.Effect of egg weight on composition, embryonic growth, and expression of amino acid transporter genes in yolk sac membranes and small intestines of the domestic pigeon (Columba livia).Development and nutrient metabolism of embryos from two modern broiler strains.Influence of in ovo mercury exposure, lake acidity, and other factors on common loon egg and chick quality in Wisconsin.Yolk sac fatty acid composition, yolk absorption, embryo development, and chick quality during incubation in eggs from young and old broiler breeders.Effects of in ovo administration of L-carnitine on hatchability performance, glycogen status and insulin-like growth factor-1 of broiler chickens.Relationship between chick conformation and quality measures with early growth traits in males of eight selected pure or commercial broiler breeder strains.Supplementation of the maternal diet with tomato powder and marigold extract: effects on the antioxidant system of the developing quail.Metabolic fate of yolk fatty acids in the developing king penguin embryo.Early transition of the digestive system to exogenous nutrition in domestic post-hatch birds.Transcriptome analysis of the livers of ducklings hatched normally and with assistance.Identification of microRNAs controlling hepatic mRNA levels for metabolic genes during the metabolic transition from embryonic to posthatch development in the chicken.The regulation of IMF deposition in pectoralis major of fast- and slow- growing chickens at hatching.Effect of oxysterol-induced apoptosis of vascular smooth muscle cells on experimental hypercholesterolemia.Effect of maternal rearing on lipid metabolism-related gene expression in offspring broilers during embryonic development.Comparative evaluation of the effect of two maternal diets on fatty acids, vitamin E and carotenoids in the chick embryo.[The effect of palm oil and safflower oil in the feed of parent fattening hens on fertility, hatchability and growth of progeny].Fate of egg proteins during the development of Columba livia domestica embryo.Broiler chicks with slow-feathering (K) or rapid-feathering (k+) genes: Effects of environmental stressors on physiological adaptive indicators up to 56 h posthatch.Thymol feed supplementation in quail alters the percentages of nutritionally relevant egg yolk fatty acids: effects throughout incubation.Tissue-specific changes in the activities of antioxidant enzymes during the development of the chicken embryo.Comparison of hatching egg characteristics, embryo development, yolk absorption, hatch window, and hatchability of Pekin Duck eggs of different weights.Investigating the effect of excess caffeine exposure on placental angiogenesis using chicken 'functional' placental blood vessel network.Fatty acid profiles of great tit (Parus major) eggs differ between urban and rural habitats, but not between coniferous and deciduous forests.Transcriptional profiling of liver in riboflavin-deficient chicken embryos explains impaired lipid utilization, energy depletion, massive hemorrhaging, and delayed feathering.
P2860
Q27316749-7F105057-C33E-4742-B289-ACF0FF6EC088Q28767970-8D360761-FA3C-4B86-A3B9-AEF810361EB8Q33561866-2D895E84-4648-495A-9A35-545ED02B21EFQ34228372-2A7CDE30-D4E3-4336-B78B-D1D12A7BF02AQ35228864-0E0E8BED-DA41-4309-A8B6-5DBFA47968E7Q35806703-332C8482-1C03-44E8-8D5D-600D5CE20117Q36550818-3D43CC2D-31A0-42CD-B8BD-7A99F6BD46DEQ36743714-D51457DF-CA1E-46D7-965E-048969C0D296Q37397333-57F1B12E-9F6B-49CB-B713-05F93507C1D3Q38313680-DFCD912C-55AA-439B-8DA2-426B5326CAEFQ38404362-E27F42C2-8619-4F86-ACAE-9E176B4AD2C2Q38404798-9B9D0DE8-C595-45EC-8764-3085E20E421FQ38405079-7D60CCEB-7C44-4FC6-82B8-E189EC7C3E05Q38405345-0B131660-54A5-46C0-99A4-3887F428C82EQ38409463-FBBADD4C-1917-417E-BA27-D5B28370C132Q38409958-BB51E74E-EA78-4887-9921-F090566DB165Q38409967-810D40D3-7F0C-4E47-9705-0D1E53068361Q38412759-76C60DFD-20F1-441B-987D-62149888BC03Q38413249-BCEF9943-78B8-4AE0-AA4C-C76C475163EBQ38417071-115B1A9C-901C-48A3-89D4-BFF7AF5061F3Q38432004-C5614BD3-1358-48BE-87D1-DF0BF2950F8EQ38443309-E22582C8-2DC8-489F-B73D-5AF9C705F0F4Q38444378-B22C6347-7942-4703-B0E2-D22F75793859Q38452225-237891A9-294E-40FD-A387-F248EAD23B60Q38467213-3B7316C1-B43F-4B4A-B7D0-3524A3923079Q39220662-158BDB52-3A51-4904-B62C-4CDB6E980291Q41611022-1F6BF57C-6664-442A-8A03-4ACE3C2FBBABQ42368501-94C09DDC-2967-4DD6-9E27-4E969FB69411Q42540091-B7EFB7CA-EDFA-43CD-BB9D-6792B2148EA4Q42868920-13CF2F4B-E406-4F90-BC07-4C38F622553FQ43649771-BC150DC0-B231-4D0F-85A3-9935FD9CCB9DQ46355474-2C5D9A61-2C03-40B6-94A7-432C29623369Q47217700-A75CADA0-F76E-43DB-8E95-2DBD1994C267Q47422306-A02BBF01-5DC7-4B50-A96F-4FA78F453C7AQ47773253-CF8391C9-B5C0-4113-ADB1-D2392C10EE70Q48119412-73B41AFA-17E5-43C6-B569-4E5651EE7070Q49919511-3FF2FC5D-F34F-40E1-B43B-61308D48E0F5Q50577555-E48DF786-0DA9-4363-9BE8-60CECE931B53Q50945358-CF79A289-A3E0-43BE-80CC-304EF539D0E7Q52673575-E7421694-EF89-4FF2-8BAF-E8C4E5F227F4
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on January 1990
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Lipid metabolism and the neonatal chicken.
@en
Lipid metabolism and the neonatal chicken.
@nl
type
label
Lipid metabolism and the neonatal chicken.
@en
Lipid metabolism and the neonatal chicken.
@nl
prefLabel
Lipid metabolism and the neonatal chicken.
@en
Lipid metabolism and the neonatal chicken.
@nl
P1476
Lipid metabolism and the neonatal chicken.
@en
P2093
P304
P356
10.1016/0163-7827(90)90014-C
P577
1990-01-01T00:00:00Z