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SRX25403077: RNA-seq of rabbit embryos cultured in vitro with or without oviductal ECM hydrogel coating
1 ILLUMINA (NextSeq 550) run: 14.5M spots, 2.2G bases, 804.8Mb downloads

Design: Embryos (n = 72, 80, and 128 for the OviECM coating, in vitro control, and NC groups, respectively) were pooled and randomly divided into groups, generating a total of 35 pooled samples (n = 9, 10, and 16 for the OviECM coating, In vitro control, and NC groups, respectively). Total RNA was extracted using the RNeasy Mini Kit (Qiagen, Hilden, Germany) according to the manufacturers instructions. mRNA libraries were prepared from total RNA using the TruSeq stranded mRNA Library Preparation kit (20020594, Illumina). The libraries generated were quantified by fluorimetry and verified for size using the Agilent 2100 Bioanalyzer. An equimolecular pool of all samples was prepared and sequenced on the NextSeq 550 NGS platform (Illumina) by 2x75 bp paired-end sequencing (High Output Reagent Cartridge 150 cycles, 400M reads).
Submitted by: IVI Foundation
Study: RNA-seq of Oryctolagus cuniculus day-6 embryos
show Abstracthide Abstract
Infertility is a reproductive system disorder defined by the World Health Organization as 'the failure to achieve a clinical pregnancy after 12 months or more of regular unprotected sexual intercourse'. Currently, around 15% of couples worldwide are affected by this condition and, for a significant number of them, assisted reproductive technology (ART) provides a helpful solution. Indeed, the number of children born using these methods exceeds 10 million.In this context, the outcome of in vitro embryo culture has improved over the last decades, with many chemical formulations and physical platforms being developed to support it. Today it is known that the biophysical and chemical cues of the microenvironments impart significant spatiotemporal effects on embryonic development. However, current embryo culture techniques still have limitations, as they are unable to fully replicate the dynamic conditions of the reproductive tract in vitro. This suboptimal environment prompts mammalian embryos to display significant developmental reprogramming, resulting in distinct epigenetic and phenotypic variations at pre- and postnatal stages.Based on previous studies, we have hypothesized that, by mimicking an oviductal environment in vitro, the embryonic gene expression and the post-natal growth would more closely resemble those of naturally conceived (NC) animals. To create a culture environment to mimic the oviduct, we chose the rabbit as an animal model given its phylogenetic closeness to humans, the size of its oviducts, and its high reproductive performance. The main objective of this study was to evaluate the effect of an ECM hydrogel from DC rabbit oviducts (OviECM) used as a substrate for in vitro culture of embryos, compared to standard culture conditions. We aimed to assess its value in maintaining early embryonic development and, ultimately, the potential epigenetic and phenotypic changes induced in the embryos and the offspring.
Sample:
SAMN42719345 • SRS22065882 • All experiments • All runs
Library:
Name: EMB-5-ECM_S17
Instrument: NextSeq 550
Strategy: RNA-Seq
Source: TRANSCRIPTOMIC
Selection: PCR
Layout: PAIRED
Runs: 1 run, 14.5M spots, 2.2G bases, 804.8Mb
Run# of Spots# of BasesSizePublished
SRR2990781014,470,2222.2G804.8Mb2024-07-21

ID:
33961314

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