Human placental metabolic adaptation to chronic hypoxia, high altitude: hypoxic preconditioning. - Wikidata - wikimedia - TriplyDB

Human placental metabolic adaptation to chronic hypoxia, high altitude: hypoxic preconditioning.

Human placental metabolic adaptation to chronic hypoxia, high altitude: hypoxic preconditioning.

http://www.wikidata.org/entity/Q33589496

about

The Programming Power of the Placenta The placental pursuit for an adequate oxidant balance between the mother and the fetus Metabolomic analysis of anti-hypoxia and anti-anxiety effects of Fu Fang Jin Jing Oral Liquid Placental Origins of Chronic Disease.Metabolic consequences of sepsis-induced acute lung injury revealed by plasma ¹H-nuclear magnetic resonance quantitative metabolomics and computational analysis Suppression of mitochondrial electron transport chain function in the hypoxic human placenta: a role for miRNA-210 and protein synthesis inhibition.Two functional loci in the promoter of EPAS1 gene involved in high-altitude adaptation of Tibetans.Endoplasmic reticulum stress is induced in the human placenta during labour.Uterine artery blood flow, fetal hypoxia and fetal growth.Energy status and HIF signalling in chorionic villi show no evidence of hypoxic stress during human early placental development.Metabolomics in the developmental origins of obesity and its cardiometabolic consequences.The emerging field of quantitative blood metabolomics for biomarker discovery in critical illnesses Mitochondrial responses to extreme environments: insights from metabolomics.Evidence of endoplasmic reticulum stress and protein synthesis inhibition in the placenta of non-native women at high altitude.Three plasma metabolite signatures for diagnosing high altitude pulmonary edema.Placental phenotype and resource allocation to fetal growth are modified by the timing and degree of hypoxia during mouse pregnancy.Morphological and molecular changes in the murine placenta exposed to normobaric hypoxia throughout pregnancy Morphometric analysis of the placenta in the New World mouse Necromys lasiurus (Rodentia, Cricetidae): a comparison of placental development in cricetids and murids.Review: Oxygen and trophoblast biology--a source of controversy.Genome-Wide Transcriptional Analysis Reveals the Protection against Hypoxia-Induced Oxidative Injury in the Intestine of Tibetans via the Inhibition of GRB2/EGFR/PTPN11 Pathways.Is cancer a severe delayed hypersensitivity reaction and histamine a blueprint?Ex vivo perfusion of mid-to-late-gestation mouse placenta for maternal-fetal interaction studies during pregnancy.Placental Gas Exchange and the Oxygen Supply to the Fetus.Metabolomics application in maternal-fetal medicine.Metabolomic analysis of the plasma of patients with high-altitude pulmonary edema (HAPE) using 1H NMR.Metabolic adaptation of skeletal muscle to high altitude hypoxia: how new technologies could resolve the controversies.Placental hypoxic overlap lesions: a clinicoplacental correlation.Pregnancy at high altitude in the Andes leads to increased total vessel density in healthy newborns Human placental renin-angiotensin system in normotensive and pre-eclamptic pregnancies at high altitude and after acute hypoxia-reoxygenation insult.Characterizing the lipid and metabolite changes associated with placental function and pregnancy complications using ion mobility spectrometry-mass spectrometry and mass spectrometry imaging.Muscle fatigue resistance in the rat hindlimb in vivo from low dietary intakes of tuna fish oil that selectively increase phospholipid n-3 docosahexaenoic acid according to muscle fibre type.Global Metabolomics of the Placenta Reveals Distinct Metabolic Profiles between Maternal and Fetal Placental Tissues Following Delivery in Non-Labored Women.Prenatal hypoxia and placental oxidative stress: linkages to developmental origins of cardiovascular disease.Cancer; an induced disease of twentieth century! Induction of tolerance, increased entropy and 'Dark Energy': loss of biorhythms (Anabolism v. Catabolism).The metabolome of human placental tissue: investigation of first trimester tissue and changes related to preeclampsia in late pregnancy Metabolomics and Its Role in the Study of Mammalian Systems

P2860

Q26751150-E74996EE-E025-4B61-89E8-7A0FAE5D5CF5 Q26851513-8602960A-685E-4703-A72D-FD0E31091651 Q28534520-627911B8-3034-46C2-B652-F1D2DB9789B2 Q30245567-DA6ED96C-8A36-45C1-88D5-A13E8FE54152 Q34502201-5427557D-A2FA-4F72-996A-28EC5A608964 Q34576197-8B75F1AC-6F8A-4642-8942-8FDBBC33CD63 Q34684164-D631F3D2-413D-4969-B550-1484FB4640E1 Q34996669-5D865735-26FC-488D-B1EC-4575636CCBF8 Q35008450-30EAD68E-6C6A-4928-8DBC-C3C0F3E1DDC0 Q35119702-96934C0E-FEBA-4B92-90BF-A035A5ADACDA Q35525760-B3E7D71A-2216-4C78-AB5F-F597DE75A80B Q35527861-4246FE08-1646-4927-931C-00772465C6B2 Q35576902-52E0F740-B887-46FB-8AB7-B43384A503C2 Q35913027-C42AA0F7-0A5F-4308-9F0E-57744739CDC9 Q36150268-E8209675-0C9D-4237-8B87-17A2CA1FD3AE Q36632607-F1DDB4AC-6D66-45C4-9926-5B9964B773CD Q36632628-6EDF1DBF-BA65-48DB-A6C1-802243E075D0 Q36687810-31F84452-A52C-4F87-8F44-DCC710BA6677 Q36929789-88E3D25B-98FC-4DF0-93BA-2682CC5CA083 Q37195313-9DA02654-968D-4B06-BDA4-A137FFAA0250 Q37201453-93E0684E-5604-4738-9E52-DEE959CC2637 Q37714085-0BD2461A-9312-4A64-8F84-AA7BCBFD137E Q38542459-85B96912-0E48-4516-9B96-636C3717691C Q39387452-D8747C96-D3E3-4408-AE81-75A83B9B356E Q39629673-36B568A6-5EDC-4ED2-9EBB-3CC0275402C9 Q39908093-65BAB6F8-A6E0-44C5-B56F-AC1000C36773 Q41436923-12AE872B-EB51-4F94-9CA3-76EC5931220A Q42208248-9A1F3001-7EF4-4E66-A367-6D33482D0023 Q46638900-F053FEB2-1F49-481D-936D-C5AE7D36B7F2 Q47136387-A254E09B-BA56-4593-A357-C902D879BF2A Q47664481-3EEB2E1D-89C1-42FC-9D1D-2397EAA6A9E6 Q48184897-D71EDF6C-1367-4E51-B1FD-048FE53B7114 Q50430668-4A69DBBD-907E-4129-A81F-2DFE6A68A47E Q55709806-73FA1CF0-5803-4C48-9C6D-635976EBC92C Q56974296-45C52F71-9808-4DD5-AC5B-C94D4A4D9734 Q57797380-7AE0E88F-8BFD-4C10-AA8A-F2CED02F8CDC

P2860

Human placental metabolic adaptation to chronic hypoxia, high altitude: hypoxic preconditioning.

http://www.wikidata.org/entity/Q33589496

description

2009 nî lūn-bûn

@nan

2009 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած

@hyw

2009 թվականի հոտեմբերին հրատարակված գիտական հոդված

@hy

2009年の論文

@ja

2009年論文

@yue

2009年論文

@zh-hant

2009年論文

@zh-hk

2009年論文

@zh-mo

2009年論文

@zh-tw

2009年论文

@wuu

name

Human placental metabolic adap ...... tude: hypoxic preconditioning.

@ast

Human placental metabolic adap ...... tude: hypoxic preconditioning.

@en

Human placental metabolic adap ...... tude: hypoxic preconditioning.

@nl

type

label

Human placental metabolic adap ...... tude: hypoxic preconditioning.

@ast

Human placental metabolic adap ...... tude: hypoxic preconditioning.

@en

Human placental metabolic adap ...... tude: hypoxic preconditioning.

@nl

prefLabel

Human placental metabolic adap ...... tude: hypoxic preconditioning.

@ast

Human placental metabolic adap ...... tude: hypoxic preconditioning.

@en

Human placental metabolic adap ...... tude: hypoxic preconditioning.

@nl

P1433

Q33589496-AE39854F-3139-43DB-BBA7-116E4B8E1317

P1476

Q33589496-F70CFFBC-3AD0-4FFE-B587-561E5B5F5D88

P2093

Q33589496-0AB6ABFD-6E70-4AD3-A2E4-CECCCC948546

Q33589496-1E995976-DDB1-4322-8167-177313700D96

Q33589496-46505BBA-B2BB-4C0E-8410-B9CA4EEB4A83

Q33589496-4C485F17-3799-4DCB-B2A3-71B8A8E3DBBB

Q33589496-835C90EB-E6FF-4A68-AF73-DCD0385A4141

Q33589496-C59FBD0B-58D7-4DC3-BE55-D5F1D574565F

Q33589496-D30D06A4-5954-420D-9A4A-1F20CA28C841

Q33589496-F72F5476-AF9B-45AC-A989-9590DC2D1C44

P2860

Q33589496-067C1B8E-8A10-4521-8DDA-AFC3C24942C5

Q33589496-06E32ADE-897B-42BB-91B2-2DC189A63E8D

Q33589496-08EC9E78-F3C0-4067-9C53-BF5CB2580379

Q33589496-0F056128-EA1A-418E-A063-88CC5BE1DAEC

Q33589496-18FCE735-7EC6-4459-9275-06D24C80DB42

Q33589496-2D6EFBF7-D2FD-41BE-9FF5-C5D0BAD6EE55

Q33589496-473A6A7C-8377-4795-BDED-369A1338F5FD

Q33589496-51B1DC51-E175-43B3-B0B7-9275E01D3C9F

Q33589496-5BE89EC7-E686-4BD0-A86D-9E9AD0701B23

Q33589496-5FB38D3A-2919-4DB3-9BD4-AA04579856F5

P304

Q33589496-5DC27323-C032-4592-B642-A8C92348EC1C

P31

Q33589496-6E7D639B-0133-4950-89A3-03F220F4E164

P356

Q33589496-50B45BA2-ECEF-4E1E-8631-F04670E2B48E

P433

Q33589496-D32D3F10-52E7-4F42-ACAA-170BD1E66792

P478

Q33589496-BA9E1041-8A53-4A1E-A392-7AFDBD23105D

P50

Q33589496-CC735A13-DB16-498A-B2F0-019A7C17D130

P577

Q33589496-A275FB0C-1C6C-4944-8DFC-7EFB7EAF5E75

P5875

Q33589496-D0FB458B-FAB3-47C8-B277-5A9DB53CD853

P698

Q33589496-923E7A43-50A4-4FB0-B91D-EDF153EDC192

P921

Q33589496-7BE80FE0-F723-40B6-80C7-3A39A8CDBE35

Q33589496-7FE2C04C-1308-40E9-B458-AB627DD5A7E5

Q33589496-EAB6A10E-EA77-415D-B630-53AB0F597C7D

P932

Q33589496-B1514D18-67D8-4DC5-A361-8FB2AC79843E

P356

AJPREGU.00383.2009

P1433

American Journal of Physiology - Regulatory, Integrative and Comparative Physiology

P1476

Human placental metabolic adap ...... tude: hypoxic preconditioning.

@en

P2093

Eric Jauniaux

http://www.w3.org/2001/XMLSchema#string

Graham J Burton

http://www.w3.org/2001/XMLSchema#string

Jemma Johns

http://www.w3.org/2001/XMLSchema#string

Lisa Zwerdlinger

http://www.w3.org/2001/XMLSchema#string

Martha C Tissot van Patot

http://www.w3.org/2001/XMLSchema#string

Natalie J Serkova

http://www.w3.org/2001/XMLSchema#string

Tereza Cindrova-Davies

http://www.w3.org/2001/XMLSchema#string

Virginia Beckey

http://www.w3.org/2001/XMLSchema#string

P2860

Transcriptional regulation of genes encoding glycolytic enzymes by hypoxia-inducible factor 1

The role of phosphorylcreatine and creatine in the regulation of mitochondrial respiration in human skeletal muscle

Mitochondrial complex III is required for hypoxia-induced ROS production and cellular oxygen sensing

Hypoxia/reoxygenation promotes myocardial angiogenesis via an NF kappa B-dependent mechanism in a rat model of chronic myocardial infarction.

Nuclear receptors, mitochondria and lipid metabolism

Role of energy metabolism in the preconditioned heart--a possible contribution of mitochondria.

The role of mitochondria in reactive oxygen species metabolism and signaling.

Altered blood pressure course during normal pregnancy and increased preeclampsia at high altitude (3100 meters) in Colorado.

Pathophysiological relevance of mitochondria in NAD(+) metabolism.

Mechanism, origin, and evolution of anoxia tolerance in animals.

P304

R166-72

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1152/AJPREGU.00383.2009

http://www.w3.org/2001/XMLSchema#string

P433

1

http://www.w3.org/2001/XMLSchema#string

P478

298

http://www.w3.org/2001/XMLSchema#string

P50

Andrew J. Murray

P577

2009-10-28T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

38043427

http://www.w3.org/2001/XMLSchema#string

P698

19864339

http://www.w3.org/2001/XMLSchema#string

P921

metabolic adaptation

P932

2806207

http://www.w3.org/2001/XMLSchema#string