Dynamic expression of combinatorial replication-dependent histone variant genes during mouse spermatogenesis

Nucleosomes are basic chromatin structural units that are formed by DNA sequences wrapping around histones. Global chromatin states in different cell types are specified by combinatorial effects of post-translational modifications of histones and the expression of histone variants. During mouse spermatogenesis, spermatogonial stem cells (SSCs) self-renew while undergo differentiation, events that occur in the company of constant re-modeling of chromatin structures. Previous studies have shown that testes contain highly expressed or specific histone variants to facilitate these epigenetic modifications. However, mechanisms of regulating the epigenetic changes and the specific histone compositions of spermatogenic cells are not fully understood. Using real time quantitative RT-PCR, we examined the dynamic expression of replication-dependent histone genes in post-natal mouse testes. It was found that distinct sets of histone genes are expressed in various spermatogenic cells at different stages during spermatogenesis. While gonocyte-enriched testes from mice at 2-dpp (days post partum) express pre-dominantly thirteen histone variant genes, SSC-stage testes at 9-dpp highly express a different set of eight histone genes. During differentiation stage when testes are occupied mostly by spermatocytes and spermatids, another twenty-two histone genes are expressed much higher than the rest, including previously known testis-specific hist1h1t, hist1h2ba and hist1h4c. In addition, histone genes that are pre-dominantly expressed in gonocytes and SSCs are also highly expressed in embryonic stem cells. Several of them were changed when embryoid bodies were formed from ES cells, suggesting their roles in regulating pluripotency of the cells. Further more, differentially expressed histone genes are specifically localized in either SSCs or spermatocytes and spermatids, as demonstrated by in situ hybridization using gene specific probes. Taken together, results presented here revealed that different combinations of histone variant genes are expressed in distinct spermatogenic cell types accompanying the progression of self-renewal and differentiation of SSCs, suggesting a systematic regulatory role histone variants play during spermatogenesis.     

Identification of a maize endosperm-specific cDNA encoding farnesyl pyrophosphate synthetase

Farnesyl pyrophosphate synthetase (FPS; EC 2.5.1.10) produces the 15-carbon farnesyl pyrophosphate which is utilized in the synthesis of sterols, carotenoids, dolichols, coenzyme Q, heme a and farnesylated proteins. We have cloned this mRNA sequence from a maize endosperm cDNA library and determined the 1378-nucleotide (nt) sequence of the DNA fragment. This sequence specifies an open reading frame of 1050 nt encoding FPS. The deduced amino acid sequence shows a high degree of similarity to FPS from a wide range of organisms. Southern blot analysis indicated that there are at least two FPS gene copies in the maize genome. The cloned FPS is expressed preferentially in maize endosperm and is up-regulated in the endosperm mutants, o2 and fl2.     

Xenopus tropicalis allurin: expression, purification, and characterization of a sperm chemoattractant that exhibits cross-species activity

Previously we reported the identification of the first vertebrate sperm chemoattractant, allurin, in the frog Xenopus laevis (Xl) and demonstrated that it was a member of the CRISP family of proteins. Here we report identification, purification, and characterization of Xenopus tropicalis (Xt) allurin, a homologous protein in X. tropicalis. “Egg water” as well as purified allurin from both species exhibit efficient cross-species sperm chemoattractant activity. Western blots show that Xt egg water contains a single anti-allurin cross-reactive protein whose molecular weight (20,497 Da by MALDI MS) agrees well with the molecular weight of the hypothetical gene product for a newly recognized “Crisp A” gene in the X. tropicalis genome. A recombinant form of the protein, expressed in 3T3 cells, exhibits chemoattraction for both Xt and Xl sperm and cross reacts with anti-allurin antibodies. Examination of Crisp protein expression in the Xt oviduct using RT-PCR showed that of five documented Xt Crisp genes (Crisps 2, 3, LD1, LD2 and A) only Crisp A was expressed. In contrast, Crisp 2, Crisp 3, Crisp LD1, and Crisp LD2, but not Crisp A, were all found to be expressed in the Xt testes while subsets of Crisp proteins where expressed in the Xt ovary. These data suggest that Crisp proteins in amphibians may play multiple roles in sperm production, maturation and guidance just as they are thought to in mammals indicating that Crisp protein involvement in reproduction may not be limited to mammals.     

Entamoeba histolytica Dmc1 Catalyzes Homologous DNA Pairing and Strand Exchange That Is Stimulated by Calcium and Hop2-Mnd1

Meiosis depends on homologous recombination (HR) in most sexually reproducing organisms. Efficient meiotic HR requires the activity of the meiosis-specific recombinase, Dmc1. Previous work shows Dmc1 is expressed in Entamoeba histolytica, a eukaryotic parasite responsible for amoebiasis throughout the world, suggesting this organism undergoes meiosis. Here, we demonstrate Dmc1 protein is expressed in E. histolytica. We show that purified ehDmc1 forms presynaptic filaments and catalyzes ATP-dependent homologous DNA pairing and DNA strand exchange over at least several thousand base pairs. The DNA pairing and strand exchange activities are enhanced by the presence of calcium and the meiosis-specific recombination accessory factor, Hop2-Mnd1. In combination, calcium and Hop2-Mnd1 dramatically increase the rate of DNA strand exchange activity of ehDmc1. The biochemical system described herein provides a basis on which to better understand the role of ehDmc1 and other HR proteins in E. histolytica.     

SERPINA2 Is a Novel Gene with a Divergent Function from SERPINA1

Serine protease inhibitors (SERPINs) are a superfamily of highly conserved proteins that play a key role in controlling the activity of proteases in diverse biological processes. The SERPIN cluster located at the 14q32.1 region includes the gene coding for SERPINA1, and a highly homologous sequence, SERPINA2, which was originally thought to be a pseudogene. We have previously shown that SERPINA2 is expressed in different tissues, namely leukocytes and testes, suggesting that it is a functional SERPIN. To investigate the function of SERPINA2, we used HeLa cells stably transduced with the different variants of SERPINA2 and SERPINA1 (M1, S and Z) and leukocytes as the in vivo model. We identified SERPINA2 as a 52 kDa intracellular glycoprotein, which is localized at the endoplasmic reticulum (ER), independently of the variant analyzed. SERPINA2 is not significantly regulated by proteasome, proposing that ER localization is not due to misfolding. Specific features of SERPINA2 include the absence of insoluble aggregates and the insignificant response to cell stress, suggesting that it is a non-polymerogenic protein with divergent activity of SERPINA1. Using phylogenetic analysis, we propose an origin of SERPINA2 in the crown of primates, and we unveiled the overall conservation of SERPINA2 and A1. Nonetheless, few SERPINA2 residues seem to have evolved faster, contributing to the emergence of a new advantageous function, possibly as a chymotrypsin-like SERPIN. Herein, we present evidences that SERPINA2 is an active gene, coding for an ER-resident protein, which may act as substrate or adjuvant of ER-chaperones.     

IGS Minisatellites Useful for Race Differentiation in Colletotrichum lentis and a Likely Site of Small RNA Synthesis Affecting Pathogenicity

Colletotrichum lentis is a fungal pathogen of lentil in Canada but rarely reported elsewhere. Two races, Ct0 and Ct1, have been identified using differential lines. Our objective was to develop a PCR-probe differentiating these races. Sequences of the translation elongation factor 1α (tef1α), RNA polymerase II subunit B2 (rpb2), ATP citrate lyase subunit A (acla), and internal transcribed spacer (ITS) regions were monomorphic, while the intergenic spacer (IGS) region showed length polymorphisms at two minisatellites of 23 and 39 nucleotides (nt). A PCR-probe (39F/R) amplifying the 39 nt minisatellite was developed which subsequently revealed 1–5 minisatellites with 1–12 repeats in C. lentis. The probe differentiated race Ct1 isolates having 7, 9 or 7+9 repeats from race Ct0 having primarily 2 or 4 repeats, occasionally 5, 6, or 8, but never 7 or 9 repeats. These isolates were collected between 1991 and 1999. In a 2012 survey isolates with 2 and 4 repeats increased from 34% to 67%, while isolated with 7 or 9 repeats decreased from 40 to 4%, likely because Ct1 resistant lentil varieties had been grown. The 39 nt repeat was identified in C. gloeosporioides, C. trifolii, Ascochyta lentis, Sclerotinia sclerotiorum and Botrytis cinerea. Thus, the 39F/R PCR probe is not species specific, but can differentiate isolates based on repeat number. The 23 nt minisatellite in C. lentis exists as three length variants with ten sequence variations differentiating race Ct0 having 14 or 19 repeats from race Ct1 having 17 repeats, except for one isolate. RNA-translation of 23 nt repeats forms hairpins and has the appropriate length to suggest that IGS could be a site of small RNA synthesis, a hypothesis that warrants further investigation. Small RNA from fungal plant pathogens able to silence genes either in the host or pathogen thereby aiding infection have been reported.     

Cloning,sequencing and expression of the uvrA gene from an extremely thermophilic bacterium,Thermus thermophilus HB8

One of the most important DNA repair systems is the nucleotide (nt) excision repair system. The uvrA gene, which plays an essential role in the prokaryotic excision repair system, was cloned from an extremely thermophilic eubacterium, Thermus thermophilus (Tt) HB8, and its nt sequence was determined. In the amino acid (aa) sequence of Tt UvrA, a characteristic duplicated structure, two nt-binding consensus sequences (Walker's A-type motif) and two zinc finger DNA-binding motifs were found. The aa sequence showed 73% homology with that of Escherichia coli (Ec). These features suggest that Tt has the same excision repair system as Ec. Upon comparison of the Tt and Ec UvrA, some characteristic aa substitutions were found. The numbers of Arg and Pro residues were increased (from 66 to 81 and from 47 to 55, respectively), and the numbers of Asn and Met residues were decreased (from 33 to 18 and from 18 to 11, respectively) in Tt. The Tt uvrA gene was expressed in Ec under control of the lac promoter. Purified UvrA was stable up to 80°C (at neutral pH) and at pH 2–11 (at 25°C)     

Microarray-Based Approach Identifies Differentially Expressed MicroRNAs in Porcine Sexually Immature and Mature Testes

Background

MicroRNAs (miRNAs) are short non-coding RNA molecules which are proved to be involved in mammalian spermatogenesis. Their expression and function in the porcine germ cells are not fully understood.

Methodology

We employed a miRNA microarray containing 1260 unique miRNA probes to evaluate the miRNA expression patterns between sexually immature (60-day) and mature (180-day) pig testes. One hundred and twenty nine miRNAs representing 164 reporter miRNAs were expressed differently (p<0.1). Fifty one miRNAs were significantly up-regulated and 78 miRNAs were down-regulated in mature testes. Nine of these differentially expressed miRNAs were validated using quantitative RT-PCR assay. Totally 15919 putative miRNA-target sites were detected by using RNA22 method to align 445 NCBI pig cDNA sequences with these 129 differentially expressed miRNAs, and seven putative target genes involved in spermatogenesis including DAZL, RNF4 gene were simply confirmed by quantitative RT-PCR.

Conclusions

Overall, the results of this study indicated specific miRNAs expression in porcine testes and suggested that miRNAs had a role in regulating spermatogenesis.     

Molecular characterization of the sans fille gene in Antheraea pernyi: A highly conserved gene during the evolution of animals

Sans-fille (SNF) is the Drosophila homologue of mammalian general splicing factors U1A and U2B″, and plays an important role in sex determination in Drosophila melanogaster. In this study, the snf gene from Antheraea pernyi (Lepidoptera: Saturniidae), an economically important insect, was isolated and characterized. The obtained 925 bp cDNA sequence contains an open reading frame of 669 bp encoding a polypeptide of 222 amino acids, showing 78% sequence identity to that from D. melanogaster. A database search revealed that SNF protein homologs are present in many animals, including invertebrates and vertebrates, with more than 70% amino acid sequence identities, suggesting that they were highly conserved during the evolution of animals. Phylogenetic analysis revealed that A. pernyi SNF was closely related to Bombyx mori SNF. Quantitative real-time PCR (qRT-PCR) analysis showed that the A. pernyi snf gene was transcribed during five larval developmental stages, and in six tested tissues (ovaries, testes, silk glands, fat body, integument, and hemolymph), with the most abundance determined in the gonads (ovaries or testes). Investigation of expression changes throughout embryonic development indicated that A. pernyi snf mRNA was expressed at a low level from days 0 to 4, and reached a maximum level at day 10, but decreased to a low level before hatching. These results suggest that the product of the snf gene may play important roles in the development of A. pernyi.     

Molecular cloning and characterization of peptidoglycan recognition proteins from the rockfish,Sebastes schlegeli

Peptidoglycan recognition proteins (PGRPs) are innate immune molecules that are structurally conserved through evolution in both invertebrate and vertebrate animals. Here we report the identification and characterization of two long forms of PGRP (SsPGRP-L1 and SsPGRP-L2) from the rockfish, Sebastes schlegeli. The deduced amino acid sequences of SsPGRP-L1 and SsPGRP-L2, 466 and 482 residues respectively, contain the conserved PGRP domain and the four Zn²⁺-binding amino acid residues required for amidase activity. In addition to peptidoglycan-lytic amidase activity, recombinant SsPGRPs have broad-spectrum antimicrobial activity like zebrafish PGRPs. RT-PCR analysis of total RNA shows that the expression patterns of SsPGRP-L1 and SsPGRP-L2 genes are different, though they are widely expressed in the tissues that come in contact with bacteria. Overall, these data suggest that rockfish PGRPs are involved in the innate host defense of S. schlegeli against bacterial infections.     

Molecular cloning and expression analysis of <Emphasis Type="Italic">Bmrbp1</Emphasis>, the <Emphasis Type="Italic">Bombyx mori</Emphasis> homologue of the <Emphasis Type="Italic">Drosophila</Emphasis> gene <Emphasis Type="Italic">rbp1</Emphasis>

RBP1 is an important splicing factor involved in alternative splicing of the pre-mRNA of Drosophila sex-determining gene dsx. In this work, the Bombyx mori homologue of the rbp1 gene, Bmrbp1, was cloned. The pre-mRNA of Bmrbp1 gene is alternatively spliced to produce four mature mRNAs, named Bmrbp1-PA, Bmrbp1-PB, Bmrbp1-PC and Bmrbp1-PD, with nucleotide lengths of 799 nt, 1,316 nt, 894 nt and 724 nt, coding for 142 aa, 159 aa, 91 aa and 117 aa, respectively. BmRBP1-PA and BmRBP1-PD contain a N terminal RNA recognization motif (RRM) and a C terminal arginine/serine-rich domain, while BmRBP1-PB and BmRBP1-PC only share a RRM. Amino acid sequence alignments showed that BmRBP1 is conserved with its homologues in other insects and with other SR family proteins. The RT-PCR showed that Bmrbp1-PA was strongly expressed in all examined tissues and development stages, but Bmrbp1-PB was weakly expressed in these tissues and stages. The expression of both Bmrbp1-PA and Bmrbp1-PB showed no obvious sex difference. While the Bmrbp1-PC and Bmrbp1-PD were beyond detection by RT-PCR very likely due to their tissue/stage specificity. These results suggested that Bmrbp1 should be a member of SR family splicing factors, whether it is involved in the sex-specific splicing of Bmdsx pre-mRNA needs further research.     

Molecular cloning and expression of a 2-Cys peroxiredoxin gene in the crustacean Eurypanopeus depressus induced by acute hypo-osmotic stress

Peroxiredoxins (Prxs) are a family of ubiquitous proteins that help minimize the harmful effects of oxidative stress by catalyzing the reduction of hydrogen peroxide (H₂O₂) and organic hydroperoxides to less harmful forms. A full-length cDNA corresponding to a 2-Cys Prx gene was isolated from the flatback mud crab Eurypanopeus depressus and designated as EdPrx-1 (GenBank accession no. EU684547). EdPrx-1 has a major open-reading frame of 594 bp and is capable of encoding a polypeptide of 198 amino acid residues. Like other 2-Cys Prxs, EdPrx-1 protein possesses two conserved cysteine residues that play an essential role for the antioxidant activity of the proteins. The EdPrx-1 protein, as deduced from the cDNA sequence, shows a high level (74–93%) of sequence similarity to the 2-Cys Prxs from other crustaceans as well as those from many arthropod species (73–76% similarity). It shares about 70% sequence similarity with homologs from mammalian species. EdPrx-1 gene is expressed at low level in the gill, hypodermis, and hepatopancreas tissues of the crab under non-stressed condition; however, its expression is elevated about three-fold in the gills under hypo-osmotic stress. This suggests a possible role in protecting against oxidative stress caused by the increased metabolic activities associated with hyperosmoregulation.