Jaana Peippo scite author profile

Aberrant gene expression in the uterine endometrium and embryo has been the major causes of pregnancy failure in cattle. However, selecting cows having adequate endometrial receptivity and embryos of better developmental competence based on the gene expression pattern has been a greater challenge. To investigate whether pretransfer endometrial and embryo gene expression pattern has a direct relation with upcoming pregnancy success, we performed a global endometrial and embryo transcriptome analysis using endometrial and embryo biopsy technology and the pregnancy outcome information. For this, endometrial samples were collected from Simmental heifers at day 7 and 14 of the estrous cycle, one cycle prior to embryo transfer. In the next cycle, blastocyst stage embryos were transferred to recipients at day 7 of the estrous cycle after taking 30-40% of the blastocyst as a biopsy for transcriptome analysis. The results revealed that at day 7 of the estrous cycle, the endometrial gene expression pattern of heifers whose pregnancy resulting in calf delivery was significantly different compared with those resulting in no pregnancy. These differences were accompanied by qualitative and quantitative alteration of major biological process and molecular pathways. However, the transcriptome difference was minimal between the two groups of animals at day 14 of the estrous cycle. Similarly, the transcriptome analysis between embryos biopsies that resulted in calf delivery and those resulted in no pregnancy revealed a total of 70 differentially expressed genes. Among these, the transcript levels of 32 genes including SPAG17, PF6, UBE2D3P, DFNB31, AMD1, DTNBP1, and ARL8B were higher in embryo biopsies resulting in calf delivery. Therefore, the present study highlights the potential of pretransfer endometrial and embryo gene expression patterns as predictors of pregnancy success in cattle.

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Copy Number Variation of Testis-Specific Protein, Y-Encoded <i>(TSPY)</i> in 14 Different Breeds of Cattle <i>(Bos taurus)</i>

Hamilton

Favetta

Meo

et al. 2009

Sex Dev

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Multi-copied gene families are prevalent in mammalian genomes, especially within the Y chromosome. Testis specific protein Y-encoded (TSPY) is present in variable copy number in many mammalian species. Previous studies have estimated that TSPY ranges from 50–200 copies in cattle. To examine TSPY localization on the Y chromosome we employed fluorescence in situ hybridization (FISH) and fiber-FISH. The results show a strong signal on the short arm of the Y chromosome (Yp). To investigate TSPY copy number we used relative real-time polymerase chain reaction (PCR) to analyze the DNA of 14 different cattle breeds. Variation both within and between breeds was observed. All breeds show significant variation in TSPY copy number among individual members. Brown Swiss (161 copies, CI = 133–195) had higher average levels of TSPY and Western Fjord Cattle (63 copies, CI = 45–86) had lower levels than some breeds. Overall, however, most breeds had a similar average TSPY copy number. The pooled average was 94 copies (CI = 88–100). The significance of the TSPY array remains uncertain, but as the function of TSPY is unraveled the purpose of the array may become clearer.

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Sex-chromosome linked gene expression in in-vitro produced bovine embryos

Peippo

Farazmand²,

Kurkilahti³

et al. 2002

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The expression of XIST, G6PD, HPRT, ZFX and ZFY were investigated in in-vitro produced bovine embryos. Transcripts of these genes were assayed by RT-PCR in pools of pre-compaction stage embryos and sexed pools of morulae and blastocysts. The expression of XIST, G6PD, HPRT and ZFX in female and male morulae and blastocysts were compared using a semi-quantitative RT-PCR. G6PD, HPRT and ZFX transcripts were noted in all pre-compaction stage embryos and in female and male blastocysts. ZFY transcripts were detected in unsexed pools of 8-16-cell stage embryos and in male blastocysts. XIST transcripts were detected in unsexed pools at the 8-16 cell stage, in male and female morulae, and in female blastocysts. The level of XIST RNA was significantly higher in female morulae than in males. Levels of G6PD and HPRT RNA were also higher in female morulae and blastocysts than in males, but only G6PD levels were significantly different between the sexes. The expression of ZFX was also significantly higher in female than in male blastocysts. These results show sexually dimorphic expression of sex chromosome linked genes prior to the blastocyst stage in in-vitro produced bovine embryos.

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Genome sequence and comparative analysis of reindeer (Rangifer tarandus) in northern Eurasia

Weldenegodguad

Pokharel

Yao

et al. 2020

Sci Rep

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Reindeer are semi-domesticated ruminants that have adapted to the challenging northern eurasian environment characterized by long winters and marked annual fluctuations in daylight. We explored the genetic makeup behind their unique characteristics by de novo sequencing the genome of a male reindeer and conducted gene family analyses with nine other mammalian species. We performed a population genomics study of 23 additional reindeer representing both domestic and wild populations and several ecotypes from various geographic locations. We assembled 2.66 Gb (N50 scaffold of 5 Mb) of the estimated 2.92 Gb reindeer genome, comprising 27,332 genes. The results from the demographic history analysis suggested marked changes in the effective population size of reindeer during the Pleistocene period. We detected 160 reindeer-specific and expanded genes, of which zinc finger proteins (n = 42) and olfactory receptors (n = 13) were the most abundant. Comparative genome analyses revealed several genes that may have promoted the adaptation of reindeer, such as those involved in recombination and speciation (PRDM9), vitamin D metabolism (TRPV5, TRPV6), retinal development (PRDM1, OPN4B), circadian rhythm (GRIA1), immunity (CXCR1, CXCR2, CXCR4, IFNW1), tolerance to cold-triggered pain (SCN11A) and antler development (SILT2). The majority of these characteristic reindeer genes have been reported for the first time here. Moreover, our population genomics analysis suggested at least two independent reindeer domestication events with genetic lineages originating from different refugial regions after the Last Glacial Maximum. Taken together, our study has provided new insights into the domestication, evolution and adaptation of reindeer and has promoted novel genomic research of reindeer.

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Sex related embryo development

Kochhar

Peippo²,

King

2001

Theriogenology

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Jaana Peippo

Bovine pretransfer endometrium and embryo transcriptome fingerprints as predictors of pregnancy success after embryo transfer

Copy Number Variation of Testis-Specific Protein, Y-Encoded <i>(TSPY)</i> in 14 Different Breeds of Cattle <i>(Bos taurus)</i>

Sex-chromosome linked gene expression in in-vitro produced bovine embryos

Genome sequence and comparative analysis of reindeer (Rangifer tarandus) in northern Eurasia

Sex related embryo development

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