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1.
Cloning and characterization of the gene encoding the bovine BOULE protein   总被引:5,自引:0,他引:5  
The Deleted in Azoospermia (DAZ) genes encode potential RNA-binding proteins that are expressed exclusively in the germ-line. The bovine Deleted in Azoospermia-like gene is a strong candidate for male cattle-yak infertility. In this work, with the goe goal to further reveal the genetic cause of male cattle-yak sterility, another bovine DAZ family gene, b-boule, was isolated and characterized. The b-boule gene is predicted to encode a polypeptide of 295 amino acids with an RNP-type RNA recognition domain. Tertiary structure analysis shows that b-boule binds specifically to polypyrimidine RNAs and might act as a nuclear ribonucleoprotein particle auxiliary factor during germ cell formation and morphological changes of germ cells. RT-PCR assays revealed that b-boule was expressed specifically in the adult testis. However, an extremely low level of expression was detected in the testis of sterile male cattle-yaks. Microstructure of the testes from sterile males showed that type A spermatogonia were the only germ cells present and that few germ cells developed further than the stage of pachytene spermatocytes. These results suggest that b-boule may function in bovine spermatogenesis, and that low levels of b-boule expression might lead to male sterility in cattle-yaks.  相似文献   

2.
Genes of the DAZ (Deleted in AZoospermia) gene family, DAZ, DAZL (DAZ-Like), and BOULE, encode closely related RNA-binding proteins that are required for fertility in numerous organisms, yet the genomes of different organisms possess different complements of DAZ family genes. Thus, invertebrates such as flies and worms contain just a single DAZ homolog, boule, while genomes of vertebrates, other than catarrhine primates (Old World monkeys and hominids), possess both Boule and Dazl genes. Finally, catarrhine primates possess BOULE, DAZL, and DAZ genes. Since the DAZ genes arose recently in evolution in the catarrhine lineage, we sought to examine how the sequences and expression of this gene family may have changed after the introduction of a new member, DAZ. Based on previous results, we hypothesized that the introduction of a new member of the DAZ gene family into catarrhines could reduce functional constraint on DAZL. Surprisingly, however, we found that platyrrhine DAZL demonstrated significantly more sequence divergence than catarrhine DAZL (p=0.0006 for nucleotide and p=0.05 for amino acid sequence); however, comparison of K a/K s ratios suggests that the DAZL and BOULE genes are under similar functional constraints regardless of lineage. Thus, our data are most consistent with the hypothesis that the introduction of DAZ did not affect the evolution of DAZL or BOULE, and that a higher neutral mutation rate in platyrrhines than in catarrhines, along with the greater tolerance of DAZL for variation relative to BOULE, may be the foundation for the observed differences in sequence divergence in this gene family.  相似文献   

3.
The Deleted in Azoospermia (DAZ) family of RNA binding proteins consists of highly conserved genes boule, daz and daz-like (dazl) essential for germ cell development. boule is known for its unisexual meiotic expression in invertebrates and mammals, but meiotic-specific female expression plus meiosis-preferential male expression in trout, and meiosis-preferential bisexual expression in medaka. dazl shows highly conserved bisexual expression throughout gametogenesis in diverse species. Here we report the cloning and expression of boule and dazl in the Nile tilapia (Oreochromis niloticus), an important aquaculture fish. Molecular cloning and sequence analysis led to the identification of tilapia boule and dazl cDNAs. The predicted partial Boule contains a conserved RRM motif and Dazl has the C-terminal sequence. On a phylogenetic tree, tilapia Boule and Dazl are in separate clades of Boule and Dazl homologs from other species, indicating their divergence during early vertebrate evolution. By RT-PCR analysis, boule and dazl showed bisexual gonad-specific expression. By in situ hybridization analysis, both boule and dazl RNAs were restricted to female and male germ cells of adult gonads but absent in gonadal soma. In the ovary, boule and dazl RNAs were abundant in oocytes. In the testis, boule and dazl RNAs were prominent in meiotic spermatocytes but barely detectable in meiotic products. These data show that boule and dazl are expressed bisexually in germ cells and provide useful markers to study gametogenesis in the adult tilapia.  相似文献   

4.
Ackerman CM  Yu Q  Kim S  Paull RE  Moore PH  Ming R 《Planta》2008,227(4):741-753
In the ABC model of flower development, B function organ-identity genes act in the second and third whorls of the flower to control petal and stamen identity. The trioecious papaya has male, female, and hermaphrodite flowers and is an ideal system for testing the B-class gene expression patterns in trioecious plants. We cloned papaya B-class genes, CpTM6-1, CpTM6-2, and CpPI, using MADS box gene specific degenerate primers followed by cDNA library screening and sequencing of positive clones. While phylogenetic analyses show that CpPI is the ortholog of the Arabidopsis gene PI, the CpTM6-1 and CpTM6-2 loci are representatives of the paralogous TM6 lineage that contain paleoAP3 motifs unlike the euAP3 gene observed in Arabidopsis. These two paralogs appeared to have originated from a tandem duplication occurred approximately 13.4 million year ago (mya) (bootstrap range 13.36 ± 2.42). In-situ hybridization and RT-PCR showed that the papaya B-class genes were highly expressed in young flowers across all floral organ primordia. As the flower organs developed, all three B-class genes were highly expressed in petals of all three-sex types and in stamens of hermaphrodite and male flowers. CpTM6-1 expressed at low levels in sepals and carpels, whereas CpTM6-2 expressed at a low level in sepals and at a high level in leaves. Our results showed that B-class gene homologs could function as predicted by the ABC model in trioecous flowers but differential expressions of CpTM6-1, and CpTM6-2, and CpPI suggested the diversification of their functions after the duplication events. Christine M. Ackerman, Qingyi Yu contributed equally to this work.  相似文献   

5.
6.

Background

The DAZ family genes boule, daz and dazl encode RNA binding proteins essential for fertility of diverse animals including human. dazl has bisexual expression in both mitotic and meiotic germ cells, whereas daz has male premeiotic expression, and boule is largely a unisexual meiotic regulator. Although boule has been proposed as the ancestor for dazl/daz by gene duplication, it has been identified only in invertebrates and mammals. It has, however, remained unclear when and how the DAZ family has evolved in vertebrates.

Methodology and Principal Findings

This study was aimed at identifying and characterizing the DAZ family genes in fish as the basal vertebrate. We show that boule and dazl coexist in medaka and stickleback. Similar to the medaka dazl (Odazl), the medaka boule (Obol) is maternally supplied and segregates with primordial germ cells. Surprisingly, Obol is expressed in adult germ cells at pre-meiotic and meiotic stages of spermatogenesis and oogenesis. However, the maximal meiotic Obol expression in spermatocytes contrasts with the predominant pre-meiotic Odazl expression in spermatogonia, and the diffuse cytoplasmic Obol distribution in early oocytes contrasts with the Odazl concentration in the Balbinani''s body.

Conclusions

The identification of fish boule and dazl genes provides direct evidence for the early gene duplication during vertebrate evolution. Our finding that Obol exhibits bisexual expression in both embryonic and adult germ cells considerably extends the diversity of boule expression patterns and offers a new insight into the evolutions of DAZ family members, expression patterns and functions in animal fertility.  相似文献   

7.
Li M  Shen Q  Xu H  Wong FM  Cui J  Li Z  Hong N  Wang L  Zhao H  Ma B  Hong Y 《PloS one》2011,6(1):e15910

Background

The genes boule and dazl are members of the DAZ (Deleted in Azoospermia) family encoding RNA binding proteins essential for germ cell development. Although dazl exhibits bisexual expression in mitotic and meiotic germ cells in diverse animals, boule shows unisexual meiotic expression in invertebrates and mammals but a bisexual mitotic and meiotic expression in medaka. How boule and dazl have evolved different expression patterns in diverse organisms has remained unknown.

Methodology and Principal Findings

Here we chose the fish rainbow trout (Oncorhynchus mykiss) as a second lower vertebrate model to investigate the expression of boule and dazl. By molecular cloning and sequence comparison, we identified cDNAs encoding the trout Boule and Dazl proteins, which have a conserved RNA-recognition motif and a maximal similarity to their homologs. By RT-PCR analysis, adult RNA expression of trout boule and dazl is restricted to the gonads of both sexes. By chromogenic and two-color fluorescence in situ hybridization, we revealed bisexual and germline-specific expression of boule and dazl. We found that dazl displays conserved expression throughout gametogenesis and concentrates in the Balbinani''s body of early oocytes and the chromatoid body of sperm. Surprisingly, boule exhibits mitotic and meiotic expression in the male but meiosis-specific expression in the female.

Conclusions

Our data underscores differential conservation and divergence of DAZ family genes during vertebrate evolution. We propose a model in which the diversity of boule expression in sex and stage specificity might have resulted from selective loss or gain of its expression in one sex and mitotic germ cells.  相似文献   

8.
Genes in the odd-skipped (odd) family encode a discrete subset of C2H2 zinc finger proteins that are widely distributed among metazoan phyla. Although the initial member (odd) was identified as a Drosophila pair-rule gene, various homologs are expressed within each of the three germ layers in complex patterns that suggest roles in many pathways beyond segmentation. To further investigate the evolutionary history and extant functions of genes in this family, we have initiated a characterization of two homologs, odd-1 and odd-2, identified in the genome of the nematode, Caenorhabditis elegans. Sequence comparisons with homologs from insects (Drosophila and Anopheles) and mammals suggest that two paralogs were present within an ancestral metazoan; additional insect paralogs and both extant mammalian genes likely resulted from gene duplications that occurred after the split between the arthropods and chordates. Analyses of gene function using RNAi indicate that odd-1 and odd-2 play essential and distinct roles during gut development. Specific expression of both genes in the developing intestine and other cells in the vicinity of the gut was shown using GFP-reporters. These results indicate primary functions for both genes that are most like those of the Drosophila paralogs bowel and drumstick, and support a model in which gut specification represents the ancestral role for genes in this family.Edited by C. Desplan  相似文献   

9.
10.
A major prerequisite to understanding the evolution of developmental programs includes an appreciation of gene function in a comparative context. RNA interference (RNAi) represents a powerful method for reverse genetics analysis of gene function. However, RNAi protocols exist for only a handful of arthropod species. To extend functional analysis in basal arthropods, we developed a RNAi protocol for the two-spotted spider mite Tetranychus urticae focusing on Distal-less (Dll), a conserved gene involved in appendage specification in metazoans. First, we describe limb morphogenesis in T. urticae using confocal and scanning electron microscopy. Second, we examine T. urticae Dll (Tu-Dll) mRNA expression patterns and correlate its expression with appendage development. We then show that fluorescently labeled double-stranded RNA (dsRNA) and short interfering RNA (siRNA) molecules injected into the abdomen of adult females are incorporated into the oviposited eggs, suggesting that dsRNA reagents can be systemically distributed in spider mites. Injection of longer dsRNA as well as siRNA induced canonical limb truncation phenotypes as well as the fusion of leg segments. Our data suggest that Dll plays a conserved role in appendage formation in arthropods and that such conserved genes can serve as reliable starting points for the development of functional protocols in nonmodel organisms.  相似文献   

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