Nuclear proteins such as transcription and chromatin remodeling factors are required for initiation of transcription in early embryos before embryonic genome activation. The nuclear transport of these proteins is mediated by transport factors such as importins. Through analysis of expressed sequence tags from a bovine oocyte cDNA library, we identified a new member of the importin alpha family (named importin alpha8). The cloned cDNA for bovine importin alpha8 (KPNA7) is 1817 base pair in length, encoding a protein of 522 amino acids that contains a conserved importin beta-binding domain and seven armadillo motifs. The RT-PCR analysis revealed that KPNA7 mRNA is specifically expressed in ovaries and mature oocytes. Real-time PCR demonstrated that KPNA7 expression in germinal vesicle (GV) oocytes is 33 to 2396 times higher than that of other importin alpha genes and that KPNA7 mRNA is abundant in GV and metaphase II oocytes, as well as in early-stage embryos collected before embryonic genome activation, but is barely detectable in morula- and blastocyst-stage embryos. Similarly, expression of KPNA7 protein is very high in oocytes and early embryos but is low in blastocysts. A glutathione S-transferase pull-down assay revealed that KPNA7 has a strong binding affinity for the nuclear protein nucleoplasmin 2 relative to that of other importin alphas. RNA interference experiments demonstrated that knockdown of KPNA7 in early embryos results in a decreased proportion of embryos developing to the blastocyst stage. These results suggest that KPNA7 may have an important role in the transport of essential nuclear proteins required for early embryogenesis.
R1-nj anthocyanin marker inhibition is highly frequent in tropical maize germplasm considerably affecting efficiency of haploid identification. Molecular markers reliably differentiating germplasm with anthocyanin color inhibitor have been identified in this study. The R1-Navajo (R1-nj) color marker facilitates easy and quick identification of haploid kernels at the seed stage during in vivo haploid induction process in maize. However, the Navajo phenotype can be completely suppressed or poorly expressed in some germplasm, making it impossible or inefficient to identify haploids at the seed stage. In this study, we characterized the expression of R1-nj marker in a large array of tropical/subtropical inbred lines, breeding populations and landraces by crossing with the R1-nj-based tropicalized haploid inducer. There was a high frequency of inhibition of the Navajo phenotype in the maize inbred lines, which are used in tropical breeding programs. Genome-wide association mapping showed that the C1 anthocyanin regulatory locus is the most significant genetic factor influencing inhibition of the Navajo phenotype. Molecular marker assays were designed based on polymorphism in the C1 vs C1-I alleles. Analysis of a set of 714 inbred lines demonstrated that a combination of two gene-specific markers--8 bp C1-I InDel and C1-I SNP--could predict with high accuracy the presence of anthocyanin color inhibition in the germplasm analyzed. Information generated in this study aids in making informed decisions on the constitution of source populations for doubled haploid (DH) line development in tropical germplasm, particularly those derived from elite maize lines from CIMMYT. The C1-I gene-specific molecular markers identified and validated will facilitate high-throughput and cost-effective evaluation of a large pool of germplasm for the presence of the dominant color inhibitor in maize germplasm.
BackgroundNucleoplasmin 2 (NPM2) is an oocyte-specific nuclear protein essential for nuclear and nucleolar organization and early embryonic development. The aims of this study were to clone the bovine NPM2 gene, determine its temporal expression during oocyte development and early embryogenesis, and evaluate the potential role of miRNA-181a in regulation of its expression.MethodsA 329 bp cDNA fragment was amplified from bovine fetal ovary using primers designed based on the conserved regions of the human and mouse NPM2 cDNA sequences. RACE experiments were performed to obtain the 5' and 3' ends of the bovine NPM2 cDNA. Real time PCR and Western blot analysis were used to examine the expression of bovine NPM2 in oocytes and early embryos. Co-expression of bovine NPM2 and miRNA-181a in Hela cells was performed to determine if expression of bovine NPM2 is regulated by miRNA-181a.ResultsThe bovine NPM2 cDNA is 851 bp in length encoding a protein of 200 amino acids. The protein contains the conserved bipartite nuclear localization sequence and shows 53% and 62% identity with mouse and human NPM2, respectively. Expression of bovine NPM2 mRNA is restricted to ovaries. NPM2 mRNA is abundant in GV and MII stage oocytes, decreases in early cleavage stage embryos, and barely detectable in morula and blastocyst stage embryos. Similarly, expression of NPM2 protein is high in oocytes and early embryos but extremely low in blastocysts. The abundance of NPM2 mRNA is significantly lower in oocytes isolated from persistent versus growing dominant follicles (P < 0.05). A miR-181a binding site in the 3'UTR of the NPM2 transcript was identified. Transfection experiments showed that bovine NPM2 protein expression is reduced in Hela cells expressing miR-181a compared to control cells without miR-181a, indicating that translation of NPM2 is repressed by miR-181a.ConclusionsOur data suggest that expression of bovine NPM2 is temporally regulated during early embryogenesis and miR-181a may play a role in its regulation.
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