Dual effects of superovulation: loss of maternal and paternal imprinted methylation in a dose-dependent manner. - Test2 - elhamkhani - TriplyDB

Dual effects of superovulation: loss of maternal and paternal imprinted methylation in a dose-dependent manner.

Dual effects of superovulation: loss of maternal and paternal imprinted methylation in a dose-dependent manner.

http://www.wikidata.org/entity/Q48712348

about

Human aneuploidy: mechanisms and new insights into an age-old problem The placenta: phenotypic and epigenetic modifications induced by Assisted Reproductive Technologies throughout pregnancy In vitro maturation of human oocytes: Its role in infertility treatment and new possibilities New insights into establishment and maintenance of DNA methylation imprints in mammals Why we should transfer frozen instead of fresh embryos: the translational rationale A concise review on epigenetic regulation: insight into molecular mechanisms Lipopolysaccharide (LPS) disrupts particle transport, cilia function and sperm motility in an ex vivo oviduct model.Metastasis tumor antigen 2 (MTA2) is involved in proper imprinted expression of H19 and Peg3 during mouse preimplantation development Peri-implantation hormonal milieu: elucidating mechanisms of abnormal placentation and fetal growth The long-term effects of superovulation on fertility and sexual behavior of male offspring in mice.Generation of trophoblast stem cells.Epigenetic disorders and altered gene expression after use of Assisted Reproductive Technologies in domestic cattle.In vitro culture increases the frequency of stochastic epigenetic errors at imprinted genes in placental tissues from mouse concepti produced through assisted reproductive technologies.The impact of assisted reproductive technologies on genomic imprinting and imprinting disorders.Inter- and intra-individual variation in allele-specific DNA methylation and gene expression in children conceived using assisted reproductive technology.Abnormal DNA Methylation of Imprinted Loci in Human Preimplantation Embryos Limiting dilution bisulfite (pyro)sequencing reveals parent-specific methylation patterns in single early mouse embryos and bovine oocytes.Selection of stable reference genes for quantitative rt-PCR comparisons of mouse embryonic and extra-embryonic stem cells In vitro grown sheep preantral follicles yield oocytes with normal nuclear-epigenetic maturation.Superovulation does not affect the endocrine activity nor increase susceptibility to carcinogenesis of uterine and mammary glands of female offspring in mice.Culture of oocytes and risk of imprinting defects.Comparative intrauterine development and placental function of ART concepti: implications for human reproductive medicine and animal breeding.The effects of culture on genomic imprinting profiles in human embryonic and fetal mesenchymal stem cells.Depletion of Kcnq1ot1 non-coding RNA does not affect imprinting maintenance in stem cells.DNA methylation dynamics at imprinted genes during bovine pre-implantation embryo development.The periconceptional environment and cardiovascular disease: does in vitro embryo culture and transfer influence cardiovascular development and health?Environmental and epigenetic effects upon preimplantation embryo metabolism and development.The role of imprinted genes in fetal growth abnormalities.Analysis of H19 methylation in control and abnormal human embryos, sperm and oocytes.Characterization of global loss of imprinting in fetal overgrowth syndrome induced by assisted reproduction.Smaller fetal size in singletons after infertility therapies: the influence of technology and the underlying infertility.Germline and somatic imprinting in the nonhuman primate highlights species differences in oocyte methylation.Assisted reproduction treatment and epigenetic inheritance.Loss of genomic imprinting in mouse embryos with fast rates of preimplantation development in culture.Primary epimutations introduced during intracytoplasmic sperm injection (ICSI) are corrected by germline-specific epigenetic reprogramming.Suboptimal culture conditions induce more deviations in gene expression in male than female bovine blastocysts.Epigenetic mechanisms of genomic imprinting: common themes in the regulation of imprinted regions in mammals, plants, and insects.Maternal control of early embryogenesis in mammals Methylation levels at imprinting control regions are not altered with ovulation induction or in vitro fertilization in a birth cohort Compromised fertility disrupts Peg1 but not Snrpn and Peg3 imprinted methylation acquisition in mouse oocytes.

P2860

Q24631178-6262133F-2AD5-4AC0-BF02-A37F77B77CA8 Q26795427-93087EB7-8E10-4EE7-ACAC-FAB15928AA5F Q26822425-9E65AB75-0749-441D-933E-378A7B9FBEDA Q26852971-EDAE8182-AFB9-4CA6-A09E-12A42BA39E29 Q26853193-CE2A8F08-3451-4FCA-BB9D-70A7EB423956 Q27023231-D2F5372F-5C71-420B-B5F7-2EB069BABCED Q27321142-804939E1-53C2-4A0E-A289-2841D74C90F9 Q28585825-DD3F04DB-A02A-44D2-AF7A-80A9E3174C97 Q30408297-818CB1E5-9D83-416B-A84C-05023F4C21C6 Q33591924-C832C072-55F1-410F-A84F-04E22E02B72C Q33771727-193124C1-A3E9-45D6-878E-889DFB817743 Q33784575-5F7ABFE9-BF56-49E2-9B98-58A055F747C0 Q33826326-87199385-9AD7-4ECC-AF53-68E3921F6246 Q34011361-6810C77E-6CC5-4B2C-ABBB-8E6FFF4C9543 Q34014319-D5376E09-F67F-4491-8739-CDC80174AFEA Q34019086-72384A92-54F7-472B-ACB9-8E078B383060 Q34028621-21387F45-11C9-41B1-ABF5-2EE4A88CD5AE Q34079339-A1A2F61F-1650-496D-8251-F9E47A198322 Q34087754-8B946EED-C119-48A6-B19B-88DB722E2C68 Q34145747-B0A797D0-C4CE-41CA-96E2-36B795F5F7A5 Q34305206-08799480-99FA-4717-831F-26D47B430144 Q34337039-5607D4AB-76C6-4BF8-87D3-A3E8C53E9E1D Q34643973-C683934A-0A2A-4148-A6E9-716CA53DD82C Q35154994-9E5F1728-99F9-467E-8D09-27BF30250F3D Q35186705-DBF8ECE8-88D7-4518-90A2-2D4BBBC58FAC Q35227826-F3250737-6AAD-4B54-83B8-EF9FAB155872 Q35242537-65ACF065-9CC0-41E6-9B7B-17D5DD1A6B3D Q35295496-F783AA1E-2439-47B8-8647-4C9F5925147C Q35406359-CDD2088F-DD78-4FE2-8869-ED8421E14FB0 Q35484896-D3BC64F6-E11B-467A-A0E5-BCD70885C263 Q35539594-A43D5CBA-BBF9-4657-9C9A-DC95E6D549AB Q35561940-19A06114-96ED-47AA-8AB0-9EAD81A6CF20 Q35766037-F7460F19-7B58-46F7-AE69-F0734A8AFD54 Q35779087-93F46AE6-0FDA-4E44-BEE7-23FEA0B5F1B7 Q35837193-8A261B69-9D64-438B-8B24-667A17B52506 Q35902009-23696063-C8DF-4223-B505-202ED5598362 Q35909876-D49851C1-6DA9-44EE-BE3E-4312461D91FD Q35984494-B399B015-6B26-4E40-98C9-58DB25D8F393 Q36035241-FF388FF6-17B9-4D43-93A8-2D27B5D0B51F Q36088644-29684E06-C40B-4930-A325-3E8C1B0C4A4A

P2860

Dual effects of superovulation: loss of maternal and paternal imprinted methylation in a dose-dependent manner.

http://www.wikidata.org/entity/Q48712348

description

2010 nî lūn-bûn

@nan

2010年の論文

@ja

2010年学术文章

@wuu

2010年学术文章

@zh

2010年学术文章

@zh-cn

2010年学术文章

@zh-hans

2010年学术文章

@zh-my

2010年学术文章

@zh-sg

2010年學術文章

@yue

2010年學術文章

@zh-hant

name

Dual effects of superovulation ...... on in a dose-dependent manner.

@en

Dual effects of superovulation ...... on in a dose-dependent manner.

@nl

type

label

Dual effects of superovulation ...... on in a dose-dependent manner.

@en

Dual effects of superovulation ...... on in a dose-dependent manner.

@nl

prefLabel

Dual effects of superovulation ...... on in a dose-dependent manner.

@en

Dual effects of superovulation ...... on in a dose-dependent manner.

@nl

P1433

Q48712348-8E8F62A5-7992-4AFD-9797-E224B09718D3

P1476

Q48712348-B81B29BA-36DD-4D96-8C5E-906E9DC8A714

P2093

Q48712348-006D70DF-8751-496B-961D-38217A65A955

Q48712348-0FECC4E3-67B7-4B78-AA51-1CC6DF47D5A6

Q48712348-46F469FC-2642-4847-80F4-F7EA0FDB8CDA

Q48712348-6120E2CE-ACFC-42D6-8A7A-A8E77DD519D9

Q48712348-823C5AE1-C852-4324-8E4A-7CCAFEECC3E6

P2860

Q48712348-00B9D908-C45D-45C5-A008-CBD41CE54310

Q48712348-05068F09-3E6A-4F61-B331-CB9460793DD6

Q48712348-08B30FE1-45C5-42CE-94B6-9F35E98D27BA

Q48712348-109CE144-F1B6-4457-8984-196AF16CB76B

Q48712348-2317B641-C4B5-4AB3-BD7B-DE76E3D1B4DB

Q48712348-26C09F6B-5D94-488F-AE3B-6261B57F95F6

Q48712348-2848C22C-5D3B-4168-BE3F-C2941902CEA9

Q48712348-2DBE89FB-113E-479C-A81D-84B9F386E3B3

Q48712348-2F75BF85-437E-431A-9D92-8D35CFD99968

Q48712348-2FD619D6-350F-453D-B691-89AD03776FD1

P304

Q48712348-43251B19-28A9-4737-A3E7-E022DFA134B4

P31

Q48712348-7ACD2E52-BF9F-418D-B182-ACA826EC98DF

P356

Q48712348-A0003899-0D39-4991-9119-D141E6D9CF3C

P433

Q48712348-23C82187-9629-4C1A-A4AC-B32FB53D3C61

P478

Q48712348-7980659F-C1A9-42F9-992C-961806235AC0

P577

Q48712348-AAA3AB9E-A4E0-40A6-AEEF-B6F9AED1CA7B

P698

Q48712348-7081FC97-112E-445D-B153-A1590A8EC98F

P356

P1433

Human Molecular Genetics

P1476

Dual effects of superovulation ...... on in a dose-dependent manner.

@en

P2093

Anne C Bonvissuto

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

Brenna A Market-Velker

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

Lauren S Magri

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

Liyue Zhang

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

Mellissa R W Mann

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

P2860

In vitro fertilization may increase the risk of Beckwith-Wiedemann syndrome related to the abnormal imprinting of the KCN1OT gene

Beckwith-Wiedemann syndrome and IVF: a case-control study

A modified and improved method for bisulphite based cytosine methylation analysis

Association of in vitro fertilization with Beckwith-Wiedemann syndrome and epigenetic alterations of LIT1 and H19

Pw1/Peg3 is a potential cell death mediator and cooperates with Siah1a in p53-mediated apoptosis

Beckwith-Wiedemann syndrome and assisted reproduction technology (ART)

Genomic imprinting and assisted reproduction

The complex language of chromatin regulation during transcription

Disruption of imprinted gene methylation and expression in cloned preimplantation stage mouse embryos

DNA methylation and gene function

P304

36-51

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

P31

scholarly article

P356

10.1093/HMG/DDP465

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

P433

1

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

P478

19

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

P577

2010-01-01T00:00:00Z

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

P698

19805400

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