| scholarly article | Q13442814 |
| P50 | author | Felix Kokocinski | Q38619462 |
| P2093 | author name string | Dagan Wells | |
| Elpida Fragouli | |||
| Samer Alfarawati | |||
| Jacques Cohen | |||
| Andrew Craig | |||
| Claude-Edouard Michel | |||
| Santiago Munne | |||
| Fiona Kaper | |||
| Katharina Spath | |||
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| The regulation of mitochondrial morphology: intricate mechanisms and dynamic machinery | Q37891347 | ||
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| P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
| P6216 | copyright status | copyrighted | Q50423863 |
| P433 | issue | 6 | |
| P921 | main subject | mitochondrial DNA | Q27075 |
| P304 | page(s) | e1005241 | |
| P577 | publication date | 2015-06-03 | |
| P1433 | published in | PLOS Genetics | Q1893441 |
| P1476 | title | Altered levels of mitochondrial DNA are associated with female age, aneuploidy, and provide an independent measure of embryonic implantation potential | |
| P478 | volume | 11 |
| Q50913286 | Adjuncts in the IVF laboratory: where is the evidence for 'add-on' interventions? |
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| Q91672405 | Autologous mitochondrial microinjection; a strategy to improve the oocyte quality and subsequent reproductive outcome during aging |
| Q49897972 | Blastulation timing is associated with differential mitochondrial content in euploid embryos |
| Q46292308 | Chromosomal Aneuploidy Improves the Brewing Characteristics of Sake Yeast |
| Q47241235 | Clinical implications of mitochondrial DNA quantification on pregnancy outcomes: a blinded prospective non-selection study |
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| Q47262899 | Deep sequencing shows that oocytes are not prone to accumulate mtDNA heteroplasmic mutations during ovarian ageing. |
| Q87973060 | Embryonal mitochondrial DNA: relationship to embryo quality and transfer outcomes |
| Q90377789 | Euploid embryos selected by an automated time-lapse system have superior SET outcomes than selected solely by conventional morphology assessment |
| Q64267347 | Evidence that growth hormone can improve mitochondrial function in oocytes from aged mice |
| Q91868085 | Impact of Oxidative Stress on Age-Associated Decline in Oocyte Developmental Competence |
| Q39195570 | Improving oocyte quality by transfer of autologous mitochondria from fully grown oocytes |
| Q57635223 | Increased Expression of Maturation Promoting Factor Components Speeds Up Meiosis in Oocytes from Aged Females |
| Q55318457 | Influence of Maternal Aging on Mitochondrial Heterogeneity, Inheritance, and Function in Oocytes and Preimplantation Embryos. |
| Q47696292 | Is mitochondrial DNA quantitation in blastocyst trophectoderm cells predictive of developmental competence and outcome in clinical IVF? |
| Q33901143 | Is the oocyte quality affected by endometriosis? A review of the literature |
| Q33589708 | Levels of trophectoderm mitochondrial DNA do not predict the reproductive potential of sibling embryos |
| Q52724286 | Mammalian Oocytes Locally Remodel Follicular Architecture to Provide the Foundation for Germline-Soma Communication. |
| Q33877290 | Manipulating the Mitochondrial Genome To Enhance Cattle Embryo Development. |
| Q94456288 | Maternal spindle transfer overcomes embryo developmental arrest caused by ooplasmic defects in mice |
| Q33850635 | Mechanisms and consequences of aneuploidy and chromosome instability in the aging brain |
| Q93181563 | Metabolic imaging with the use of fluorescence lifetime imaging microscopy (FLIM) accurately detects mitochondrial dysfunction in mouse oocytes |
| Q33896862 | Mitochondria in oocyte aging: current understanding |
| Q64105255 | Mitochondrial DNA and genomic DNA ratio in embryo culture medium is not a reliable predictor for in vitro fertilization outcome |
| Q47600497 | Mitochondrial DNA content is associated with ploidy status, maternal age, and oocyte maturation methods in mouse blastocysts. |
| Q36339551 | Mitochondrial DNA quantification as a tool for embryo viability assessment: retrospective analysis of data from single euploid blastocyst transfers. |
| Q48047379 | Mitochondrial dysfunction and ovarian aging. |
| Q88931572 | Mitochondrial unfolded protein response gene Clpp is required to maintain ovarian follicular reserve during aging, for oocyte competence, and development of pre-implantation embryos |
| Q26741333 | Modulating mitochondrial quality in disease transmission: towards enabling mitochondrial DNA disease carriers to have healthy children |
| Q89454564 | Molecular signatures of aneuploidy-driven adaptive evolution |
| Q64999034 | Mutation-specific effects in germline transmission of pathogenic mtDNA variants. |
| Q91835555 | New Frontiers in IVF: mtDNA and autologous germline mitochondrial energy transfer |
| Q38708531 | Novel reproductive technologies to prevent mitochondrial disease |
| Q53677632 | Novel technologies emerging for preimplantation genetic diagnosis and preimplantation genetic testing for aneuploidy. |
| Q38857071 | Nuclear and mitochondrial DNA in blastocoele fluid and embryo culture medium: evidence and potential clinical use |
| Q40080429 | Oocyte mitochondrial deletions and heteroplasmy in a bovine model of ageing and ovarian stimulation |
| Q38827762 | Ovarian ageing: the role of mitochondria in oocytes and follicles. |
| Q47879508 | PGD for the m.14487 T>C mitochondrial DNA mutation resulted in the birth of a healthy boy. |
| Q92590201 | Parameters impacting the live birth rate per transfer after frozen single euploid blastocyst transfer |
| Q38698310 | Preimplantation genetic diagnosis for mitochondrial DNA mutations: analysis of one blastomere suffices |
| Q47893009 | Preimplantation genetic testing: current challenges and future prospects |
| Q38954748 | Prenatal and pre-implantation genetic diagnosis |
| Q89892583 | Prenatal androgen induced lean PCOS impairs mitochondria and mRNA profiles in oocytes |
| Q38965248 | Quantitative and qualitative changes of mitochondria in human preimplantation embryos. |
| Q90240030 | RNA-seq as a tool for evaluating human embryo competence |
| Q42353679 | Recent advances in in vitro fertilization |
| Q49919785 | Reply: Mitochondrial DNA Quantification-the devil in the detail |
| Q42703383 | Reproductive aging is associated with changes in oocyte mitochondrial dynamics, function, and mtDNA quantity. |
| Q48515683 | Supply and Demand of Energy in the Oocyte and the Role of Mitochondria |
| Q90257792 | Systematic analysis of a mitochondrial disease-causing ND6 mutation in mitochondrial deficiency |
| Q33592827 | The accumulation of vitrified oocytes is a strategy to increase the number of euploid available blastocysts for transfer after preimplantation genetic testing |
| Q92054415 | The deteriorating soma and the indispensable germline: gamete senescence and offspring fitness |
| Q58558138 | The mitochondrial DNA content of cumulus cells may help predict embryo implantation |
| Q39026181 | The mitochondrial DNA content of cumulus granulosa cells is linked to embryo quality |
| Q36020291 | The relationship between mitochondrial DNA haplotype and the reproductive capacity of domestic pigs (Sus scrofa domesticus). |
| Q38852215 | The why, the how and the when of PGS 2.0: current practices and expert opinions of fertility specialists, molecular biologists, and embryologists |
| Q47107190 | Theory about the Embryo Cryo-Treatment |
| Q89774889 | Three-parent babies: Mitochondrial replacement therapies |
| Q39705740 | Transcriptome analysis of human cumulus cells reveals hypoxia as the main determinant of follicular senescence |
| Q58126536 | Updating the markers for oocyte quality evaluation: intracellular temperature as a new index |
| Q41452336 | What Drives Embryo Development? Chromosomal Normality or Mitochondria? |
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