Regulation of the ATM-activator protein Aven by CRM1-dependent nuclear export

Aven is a regulator of apoptosis whose overexpression is associated with poor prognosis in several cancers, including childhood acute lymphoblastic leukemia and acute myeloid leukemia. We have recently shown that Aven serves as an activator and substrate of ATM, thereby modulating the DNA-damage response and G2/M cell cycle progression. Under physiological conditions, the cellular localization of Aven is mainly cytosolic, but a small fraction of the protein is present in the nucleus. Here, we show that treatment of cells with leptomycin B, an inhibitor of Exportin-1/CRM (chromosomal region maintenance) 1, resulted in nuclear accumulation of Aven. Furthermore, we identified a functional LR-NES between amino acid residues 282-292 of the human Aven protein, a sequence that is evolutionary conserved among a range of vertebrate species. Disruption of this LR-NES by site-directed mutagenesis resulted in enhanced nuclear localization of Aven, but did not alter the ability of the protein to induce G2/M cell cycle arrest in interphase Xenopus laevis extracts. However, elimination of the LR-NES sequence led to a reduction in the capacity of Aven to arrest Xenopus oocytes containing intact nuclei. Our results suggest that the regulation of nucleocytoplasmatic traffic of Aven could modulate its ability to influence cell cycle progression.     

Chicken apolipoprotein A-I: cDNA sequence,tissue expression and evolution

Using an antibody against chicken apolipoprotein (apo) A-I, we identified multiple cDNA clones for the protein in two intestinal cDNA libraries in λgtll. The complete nucleotide sequence of chicken apoA-I cDNA was determined. The sequence predicts a mature protein of 240 amino acids, a 6-amino acid propeptide and an 18-amino acid signal peptide. Using a ³²P-cDNA probe, we detected the presence of apoA-I mRNA in 21 day old chicken intestine, liver, kidney, spleen, breast muscle and brain. The primary sequence of apoA-I contains numerous tandem repeats of 11 and 22 residues in a manner similar to the mammalian proteins. Our analysis of apoA-I sequences from human, rabbit, dog, rat, and chicken indicates that the rate of amino acid substitution is considerably faster in the rat lineage than in other mammalian lineages.     

Nucleotide sequence of the VP1 gene of the foot-and-mouth disease virus strain A Venceslau

The VP1 coat protein of FMDV strain A Venceslau (Aven) consists of 213 amino acid residues. Serum neutralization tests demonstrated that strain Aven is closely related to strain A Argentina/79 (A₇₉) but significantly different from strain A₂₄ Cruzeiro (A₂₄). There is a strong correlation between the amino acid sequences and the serological data. Nucleotide and amino acid sequence analyses of VP1 showed that serologically related viruses (Aven and A₇₉) differ less in this region of the genome than those of serologically distinct viruses (Aven vs. A₂₄). The most significant variation between Aven and A₂₄ occurs at amino acid positions 43 to 46, in which all four residues are different.     

Molecular cloning of chicken metallothionein. Deduction of the complete amino acid sequence and analysis of expression using cloned cDNA.

A cDNA library was constructed using RNA isolated from the livers of chickens which had been treated with zinc. This library was screened with a RNA probe complementary to mouse metallothionein-I (MT), and eight chicken MT cDNA clones were obtained. All of the cDNA clones contained nucleotide sequences homologous to regions of the longest (376 bp) cDNA clone. The latter contained an open reading frame of 189 bp, and the deduced amino acid sequence indicates a protein of 63 amino acids of which 20 are cysteine residues. Amino acid composition and partial amino acid sequence analyses of purified chicken MT protein agreed with the amino acid composition and sequence deduced from the cloned cDNA. Amino acid sequence comparisons establish that chicken MT shares extensive homology with mammalian MTs, but is more closely related to the MT-II than to the MT-I isoforms from various mammals. The nucleotide sequence of the coding region of chicken MT shares approximately 70% homology with the consensus sequence for the mammalian MTs. Southern blot analysis of chicken DNA indicates that the chicken MT gene is not a part of a large family of related sequences, but rather is likely to be a unique gene sequence. In the chicken liver, levels of chicken MT mRNA were rapidly induced by metals (Cd2+, Zn2+, Cu2+), glucocorticoids and lipopolysaccharide. MT mRNA was present in low levels in embryonic liver and increased to high levels during the first week after hatching before decreasing again to the basal levels found in adult liver. The results of this study establish that MT is highly conserved between birds and mammals and is regulated in the chicken by agents which also regulate expression of mammalian MT genes. However, in contrast to the mammals, the results suggest the existence of a single isoform of MT in the chicken.     

Sequence of a cDNA Encoding Turtle High Mobility Group 1 Protein

In order to understand sequence information about turtle HMG1 gene, a cDNA encoding HMG1 protein of the Chinese soft-shell turtle (Pelodiscus sinensis) was amplified by RT-PCR from kidney total RNA, and was cloned, sequenced and analyzed. The results revealed that the open reading frame (ORF) of turtle HMG1 cDNA is 606 bp long. The ORF codifies 202 amino acid residues, from which two DNA-binding domains and one polyacidic region are derived. The DNA-binding domains share higher amino acid identity with homologous sequences of chicken (96.5%) and mammals (74%) than homologous sequence of rainbow trout (67%). The polyacidic region shows 84.6% amino acid homology with the equivalent region of chicken HMG1 cDNA. Turtle HMG1 protein contains 3 Cys residues located at completely conserved positions. Conservation in sequence and structure suggests that the functions of turtle HMG1 cDNA may be highly conserved during evolution. To our knowledge, this is the first report of HMG1 cDNA sequence in any reptilian.From Genetika, Vol. 41, No. 7, 2005, pp. 925–930.Original English Text Copyright © 2005 by Jifang Zheng, Bi Hu, Duansheng Wu.The text was submitted by the authors in English.     

Molecular cloning of a cDNA encoding chicken T-protein of the glycine cleavage system and expression of the functional protein in Escherichia coli. Effect of mRNA secondary structure in the translational initiation region on expression.

DNA clones encoding chicken T-protein of the glycine cleavage system were isolated from chicken liver lambda gt10 cDNA libraries. Three overlapping clones provided an open reading frame of 1176 nucleotides that predicts a polypeptide of 392 amino acids (M(r) 42,056) comprised of a 16-residue mitochondrial targeting sequence and a 376-residue mature protein (M(r) 40,292). The amino acid sequence predicted for the mature protein showed 67% identity with that of bovine T-protein. A cDNA encoding mature T-protein was constructed, and the nucleotide sequence just downstream of the initiation codon was modified without amino acid substitution to reduce the free energy of formation for the folded mRNA. Expression plasmids containing these cDNA variants produced large amounts of T-protein in Escherichia coli, while very low expression was observed with a plasmid containing wild type cDNA. Enzymatically active T-protein was obtained when the expression was conducted at 30 degrees C with 25 microM isopropyl-1-thio-beta-D-galactopyranoside. Under the full inducing condition (at 37 degrees C and 1 mM inducer), the expressed T-protein was recovered as insoluble and inactive protein. The recombinant T-protein was purified to near homogeneity with a yield of about 30%. Apparent molecular weight on sodium dodecyl sulfate-polyacrylamide gel electrophoresis is approximately 40,000, similar to the size of T-protein purified from chicken liver. NH2-terminal amino acid sequence analysis (9 residues) revealed 100% identity with chicken T-protein determined chemically. The kinetic properties of the recombinant T-protein resembled those of the native chicken T-protein.     

The primary structure of chicken ribosomal protein L5.

The nucleotide sequence of a cDNA for chicken ribosomal protein L5, which is considered to associate with 5S rRNA, was determined. The cDNA is 975 bp long. The deduced protein has 297 amino acids and has a molecular mass of 34,090 Da. A comparative analysis of the amino acid sequences of chicken L5 and its homologous proteins revealed an extremely conserved region which contains a cluster of basic amino acids.     

Molecular cloning of a multifunctional chicken protein acting as the prolyl 4-hydroxylase beta-subunit, protein disulphide-isomerase and a cellular thyroid-hormone-binding protein. Comparison of cDNA-deduced amino acid sequences with those in other species.

Several recent studies indicate that a single polypeptide may act as the beta-subunit of prolyl 4-hydroxylase, the enzyme protein disulphide-isomerase and a cellular thyroid-hormone-binding protein. We report here the isolation and characterization of cDNA clones encoding this multifunctional protein in the chicken. All the coding sequences were determined on the basis of nucleotide sequencing of five cDNA clones and amino acid sequencing of the N-terminal end of the chicken beta-subunit. The processed polypeptide contains 493 amino acid residues, the size of the respective mRNA being about 2.7 kb. The chicken beta-subunit cDNA sequences were 78% homologous to the previously reported human beta-subunit cDNA sequences at the nucleotide level and 85% homologous at the amino acid level. The homology of the chicken beta-subunit sequences to those reported for bovine thyroid-hormone-binding protein and rat protein disulphide-isomerase was also 85% at the amino acid level. Primary-structure comparisons between the four species indicated that the two proposed active sites of protein disulphide-isomerase, the two Trp-Cys-Gly-His-Cys-Lys sequences, are located within highly conserved regions, which are also homologous to the active sites of a number of thioredoxins. The middle of the polypeptide has an additional conserved region 100 amino acid residues in length in which the degree of homology between the four species is 94% at the amino acid level. This long conserved region may also be important for some of the multiple functions of the protein. The four extreme C-terminal amino acids of the polypeptide in all four species are Lys-Asp-Glu-Leu, a sequence that has been suggested to function as a signal for the retention of a protein in the endoplasmic reticulum.     

Cloning and Sequencing of the xynA Gene Encoding Xylanase A of Aspergillus kawachii

We have cloned the xynA gene coding for xylanase A, a major component of the xylanase family, from Aspergillus kawachii. The cDNA was isolated from an A. kawachii cDNA library by immunoscreening using antibody raised against the purified xylanase A protein. Nucleotide sequence analysis of the cDNA showed a 981-bp open reading frame that encoded a protein of 327 amino acid residues. The signal peptide was composed of 25 amino acid residues and the N-terminus of the mature protein was pyroglutamic acid. The transformed yeast with a cloned cDNA produced xylanase. The genomic DNA was arranged as ten exons and nine introns.     

Chicken chromosomal protein HMG-14 and HMG-17 cDNA clones: isolation, characterization and sequence comparison

A cDNA clone coding for the chicken high-mobility group 14 (HMG-14) mRNA has been isolated from a chicken-liver cDNA library by screening with two synthetic oligodeoxynucleotide pools whose sequences were derived from the partial amino acid sequence of the HMG-14 protein. A chicken HMG-17 cDNA clone was also isolated in a similar fashion. Comparison of the two chicken HMG cDNA clones to the corresponding human cDNA sequences shows that chicken and human HMG-14 mRNAs and polypeptides are considerably less similar than are the corresponding HMG-17 sequences. In fact, the chicken HMG-14 is almost as similar to the chicken HMG-17 in amino acid sequence as it is to mammalian HMG-14 polypeptides. HMG-14 and HMG-17 mRNAs seem to contain a conserved sequence element in their 3'-untranslated regions whose function is at present unknown. The chicken HMG-14 and HMG-17 genes, in contrast to their mammalian counterparts, appear to exist as single-copy sequences in the chicken genome, although there appear to exist one or more additional sequences which partially hybridize to HMG-14 cDNA. Chicken HMG-14 mRNA, about 950 nucleotides in length, was detected in chicken liver RNA but was below our detection limits in reticulocyte RNA.     

Chicken cardiac tropomyosin and a low-molecular-weight nonmuscle tropomyosin are related by alternative splicing

We have isolated and characterized complementary DNAs (cDNAs) encoding chicken cardiac muscle tropomyosin and a low-molecular-weight nonmuscle tropomyosin. The cardiac muscle cDNA (pCHT-4) encodes a 284-amino acid protein that differs from chicken skeletal muscle alpha- and beta-tropomyosins throughout its length. The nonmuscle cDNA (pFT-C) encodes a 248-amino acid protein that is most similar (93-94%) to the tropomyosin class including rat fibroblast TM-4, equine platelet tropomyosin, and human fibroblast TM30pl. The nucleotide sequences of the cardiac and nonmuscle cDNAs are identical from the position encoding cardiac amino acid 81 (nonmuscle amino acid 45) through cardiac amino acid 257 (nonmuscle amino acid 221). The sequences differ both 5' and 3' of this region of identity. These comparisons suggest that the chicken cardiac tropomyosin and low-molecular-weight "platelet-like" tropomyosin are derived from the same genomic locus by alternative splicing. S1 analysis suggests that this locus encodes at least one other tropomyosin isoform.     

鸡Mx蛋白基因诱变修饰及抗病活性

[目的]进一步研究鸡Mx蛋白第631位氨基酸的变异与鸡群抗病性的相关性.[方法]本实验利用PCR突变技术将鸡Mx蛋白基因的全长cDNA第2032位的碱基由G突变为A(既631位氨基酸的改变),并将突变的Mx基因插入真核表达载体pcDNA3.0,重组表达载体转染COS-Ⅰ细胞后,进行RT-PCR与间接免疫荧光(IFA)鉴定.[结果]对鸡Mx蛋白基因的cDNA进行PCR诱变修饰正确,构建了能够正确表达鸡Mx蛋白的重组真核表达载体;诱变修饰重组Mx蛋白对抗新城疫病毒(NDV)感染分析结果显示,重组Mx蛋白具有较强的抗新城疫病毒生物活性.[结论]为下一步研究鸡Mx蛋白的抗病机理与制备抗病转基因鸡奠定了坚实的基础.     

Sequence of cDNAs encoding actin depolymerizing factor and cofilin of embryonic chicken skeletal muscle: two functionally distinct actin-regulatory proteins exhibit high structural homology.

Two actin-regulatory proteins of 19 and 20 kDa are involved in the regulation of actin assembly in developing chicken skeletal muscle. They are homologous with actin depolymerizing factor (ADF) and cofilin, a pH-dependent actin-modulating protein, which were originally discovered in chicken and mammalian brain, respectively. In this study, full-length cDNA clones were isolated by screening a lambda gt11 cDNA library constructed from poly(A+) RNA of embryonic chicken skeletal muscle with the antibodies specific for each protein, and their complete sequences were determined. The chicken cofilin cDNA encoded a protein of 166 amino acids, the sequence of which had over 80% identity with that of porcine brain cofilin. The amino acid sequence of the ADF was 165 amino acids and showed about 70% identity with either chicken or mammalian cofilin, in spite of the fact that ADF and cofilin are functionally distinct. Like chicken and mammalian cofilin, ADF contained a sequence similar to the nuclear transport signal sequence of SV40 large T antigen. ADF and cofilin shared a hexapeptide identical with the amino-terminal sequence of tropomyosin as well as the regions homologous to other actin-regulatory proteins, including depactin, gelsolin, and profilin. The overall nucleotide sequences and Southern blot analysis of genomic DNA, however, indicated that the two proteins were derived from different genes.     

Identification of the serine residue phosphorylated by protein kinase C in vertebrate nonmuscle myosin heavy chains

Two-dimensional mapping of the tryptic phosphopeptides generated following in vitro protein kinase C phosphorylation of the myosin heavy chain isolated from human platelets and chicken intestinal epithelial cells shows a single radioactive peptide. These peptides were found to comigrate, suggesting that they were identical, and amino acid sequence analysis of the human platelet tryptic peptide yielded the sequence -Glu-Val-Ser-Ser(PO4)-Leu-Lys-. Inspection of the amino acid sequence for the chicken intestinal epithelial cell myosin heavy chain (196 kDa) derived from cDNA cloning showed that this peptide was identical with a tryptic peptide present near the carboxyl terminal of the predicted alpha-helix of the myosin rod. Although other vertebrate nonmuscle myosin heavy chains retain neighboring amino acid sequences as well as the serine residue phosphorylated by protein kinase C, this residue is notably absent in all vertebrate smooth muscle myosin heavy chains (both 204 and 200 kDa) sequenced to date.     

Isolation and characterization of a cDNA clone encoding the anti-viral protein from Phytolacca americana

Phytolacca anti-viral protein (PAP) was purified from Phytolacca leaves and the N-terminal was sequenced. A cDNA library was made from mRNAs isolated from Phytolacca leaves and cDNA clones for PAP were identified using oligonucleotide probes derived from the N-terminal amino acid sequence. The PAP-cDNA clone was sequenced from both directions. The predicted amino acid sequence of PAP was compared with the amino acid sequences of other ribosome-inactivating proteins. The identities of these proteins to PAP ranged from 29 to 38%, and a region was found in each with a sequence similar to the PAP sequence (AIQMVSEAARFKYI). Southern blot analysis indicates that PAP is encoded by a multi-gene family.Abbreviations MAP Mirabilis jalapa anti-viral protein - PAP Phytolacca anti-viral protein - SO6 30 kDa ribosome-inactivating protein from the seeds of Saponaria officinalis     

Molecular cloning, expression and evolutionary analysis of the avian tyrosine kinase JAK1

The Janus protein tyrosine kinases (JAK) constitute a protein family that plays a pivotal role in signalling of a large number of cytokine receptors. The cDNA of the chicken homologue of JAK1 was cloned and its nucleotide sequence determined. Chicken JAK1 protein comprises 1150 amino acids as deduced from its cDNA sequence with a calculated molecular mass of 133 kDa. The overall structure of JAK proteins exemplified by the JAK homology domains JH1–JH7 is also preserved in chicken JAK1. Additionally, phylogenetic analysis demonstrates that chicken JAK1 is more closely related to mammalian JAK1 than to those of fish, exhibiting 80%, 79% and 63% identity in amino acid sequence to human, mouse and zebrafish JAK1, respectively. JAK1 proteins were found to be most conserved in the kinase (JH1) and pseudokinase (JH2) domains. This data is supported by Southern hybridization studies of ZOO blots. Chicken JAK1 shows a ubiquitous expression pattern and is transcribed as a 5.5 kb mRNA in various tissues and cell types. JAK1 expression was particularly high in lymphoid cells.