Molecular cloning of the human gene STK10 encoding lymphocyte-oriented kinase, and comparative chromosomal mapping of the human, mouse, and rat homologues

 LOK is a new and unique member of the STE20 family with serine/threonine kinase activity, and its expression is restricted mostly to lymphoid cells in mice. We cloned the cDNA encoding the human homologue of LOK. The amino acid sequence deduced from the cDNA shows a high similarity to that of mouse LOK, with 88% identity as a whole. The kinase domains at the N-terminus and the coiled-coil regions at the C-terminus are particularly conserved, showing 98% and 93% identity, respectively. Western blot analysis with mouse LOK-specific antibody detected 130 000 M _r LOK proteins in human and rat lymphoid cell lines and tissues. The gene encoding the LOK (STK10/Stk10) gene was mapped by fluorescence in situ hybridization to chromosome 5q35.1 in human, chromosome 11A4 in mouse, and chromosome 10q12.3 in rat. By virtue of polymorphic CA repeats found in the 3' untranslated region of the mouse Stk10 gene, the Stk10 locus was further pinpointed to chromosome 11 between D11Mit53 and D11Mit84, using the intersubspecific backcross mapping panel. These results established STK10 as a new marker of human chromosome 5 to define the syntenic boundary of human chromosomes 5 and 16 on mouse chromosome 11. Received: 28 September 1998 / Revised: 2 November 1998     

Cloning and expression of a novel human galectin cDNA, predominantly expressed in placenta(1)

A novel human galectin cDNA (PPL13) was isolated by screening a human 18-week fetal brain library. The mRNA was predominantly expressed in placenta, while the expression of it was not or barely detectable in heart, brain, lung, liver, skeletal muscle, kidney, and pancreas by Northern blot. COS-7 cells transfected with cDNA encoding human PPL13 sequestered the protein in nuclei although it lacked any known nuclear localization signal. STS of Unigene Hs. 24236 placed the cDNA to human chromosome 19q13.2.     

Saccharomyces cerevisiae Env7 Is a Novel Serine/Threonine Kinase 16-Related Protein Kinase and Negatively Regulates Organelle Fusion at the Lysosomal Vacuole

Membrane fusion depends on conserved components and is responsible for organelle biogenesis and vesicular trafficking. Yeast vacuoles are dynamic structures analogous to mammalian lysosomes. We report here that yeast Env7 is a novel palmitoylated protein kinase ortholog that negatively regulates vacuolar membrane fusion. Microscopic and biochemical studies confirmed the localization of tagged Env7 at the vacuolar membrane and implicated membrane association via the palmitoylation of its N-terminal Cys13 to -15. In vitro kinase assays established Env7 as a protein kinase. Site-directed mutagenesis of the Env7 alanine-proline-glutamic acid (APE) motif Glu269 to alanine results in an unstable kinase-dead allele that is stabilized and redistributed to the detergent-resistant fraction by interruption of the proteasome system in vivo. Palmitoylation-deficient Env7C13-15S is also kinase dead and mislocalizes to the cytoplasm. Microscopy studies established that env7Δ is defective in maintaining fragmented vacuoles during hyperosmotic response and in buds. ENV7 function is not redundant with a similar role of vacuolar membrane kinase Yck3, as the two do not share a substrate, and ENV7 is not a suppressor of yck3Δ. Bayesian phylogenetic analyses strongly support ENV7 as an ortholog of the gene encoding human STK16, a Golgi apparatus protein kinase with undefined function. We propose that Env7 function in fusion/fission dynamics may be conserved within the endomembrane system.     

Structural Organization of the Mouse and Human GALR1 Galanin Receptor Genes (GalnrandGALNR) and Chromosomal Localization of the Mouse Gene

The neuropeptide galanin elicits a range of biological effects by interaction with specific G-protein-coupled receptors. Human and rat GALR1 galanin receptor cDNA clones have previously been isolated using expression cloning. We have used the human GALR1 cDNA in hybridization screening to isolate the gene encoding GALR1 in both human (GALNR) and mouse (Galnr). The gene spans approximately 15–20 kb in both species; its structural organization is conserved and is unique among G-protein-coupled receptors. The coding sequence is contained on three exons, with exon 1 encoding the N-terminal end of the receptor and the first five transmembrane domains. Exon 2 encodes the third intracellular loop, while exon 3 encodes the remainder of the receptor, from transmembrane domain 6 to the C-terminus of the receptor protein. The mouse and human GALR1 receptor proteins are 348 and 349 amino acids long, respectively, and display 93% identity at the amino acid level. The mouseGalnrgene has been localized to Chromosome 18E4, homoeologous with the previously reported localization of the humanGALNRgene to 18q23 in the same syntenic group as the genes encoding nuclear factor of activated T-cells, cytoplasmic 1, and myelin basic protein.     

Search for the second Peutz-Jeghers syndrome locus: exclusion of the STK13, PRKCG,KLK10, and PSCD2 genes on chromosome 19 and the STK11IP gene on chromosome 2

Pathogenic mutations in the serine/threonine kinase STK11 (alias LKB1) cause Peutz-Jeghers syndrome (PJS) in most affected individuals. However, in a considerable number of PJS-patients mutations cannot be detected in STK11 suggesting genetic heterogeneity. One PJS family without STK11 mutations (PJS07) has previously been described with significant evidence for linkage to a second potential PJS locus on 19q13.3-->q13.4. In this study we investigated candidate genes within markers D19S180 and D19S254, since multipoint linkage analysis yielded significant LOD scores for this region in this family. Four genes in the region (cytohesin 2: PSCD2, kallikrein 10: KLK10, protein kinase C gamma: PRKCG, and serine/threonine kinase 13: STK13) potentially involved in growth inhibitory pathways or in the pathophysiology of can- cer, were considered as candidates. We first determined the genomic structure of the PSCD2 and PRKCG genes, and performed mutation analysis of all exons and exon-intron junctions of the four genes, in the PJS07 family. No pathogenic mutation was identified in these four genes in affected individuals. A very rare polymorphism resulting in a conserved amino acid change Lys to Arg was found in PSCD2. These data provide considerable evidence for exclusion of these four genes as candidates for the second locus on 19q13.3-->q13.4 in PJS. Finally, we also excluded the recently identified STK11-interacting protein gene (STK11IP, alias LIP1) mapped in 2q36 as candidate for PJS in the PJS07 family, although this could be a good candidate in other non-STK11/LKB1 families.     

Sequence and expression pattern of the Drosophila melanogaster mitochondrial porin gene: evidence of a conserved protein domain between fly and mouse

We have recently cloned a cDNA encoding mitochondrial porin in Drosophila melanogaster and shown its chromosomal localization (Messina et al., FEBS Lett. (1996) 384, 9–13). Such cDNA was used as a probe for screening a genomic library. We thus cloned and sequenced a 4494-bp genomic region which contained the whole gene for the mitochondrial porin or VDAC. It was found that this D. melanogaster porin gene contains five exons, numbered IA (115 bp), IB (123 bp), II (320 bp), III (228 bp) and IV (752 bp). The exons II, III and IV contain the protein coding sequence and the 3′ untranslated sequence (3′-UTR). The first base in exon II precisely corresponds to the first base of the starting ATG codon. Exon IA corresponds to the 5′-UTR sequence reported in the published cDNA sequence. Exon IB corresponds to an alternative 5′-UTR sequence, demonstrated to be transcribed by 5′-RACE experiments. The exon-intron splicing borders and the length of the exon III perfectly match a homologous internal exon detected in the mouse genes. Such exon encodes a protein domain predicted by sequence transmembrane arrangement models to contain major hydrophilic loops and it is thus suspected to have a conserved distinct function. In situ hybridization experiments confirmed the localization of the genomic clone on the chromosome 2L at region 32B3-4. Together with genomic Southern blotting at various stringencies, the same experiment did not confirm the presence of a second genetic locus on D. melanogaster chromosomes. Northern blots demonstrated that the porin gene is a housekeeping one: three messages of approx. 1.2–1.6 kbp are transcribed in every fly developmental stage that was studied. They were shown to derive by an alternative usage of different promoters and polyadenylation sites.     

cDNA Cloning and Characterization ofNpap60:A Novel Rat Nuclear Pore-Associated Protein with an Unusual Subcellular Localization during Male Germ Cell Differentiation

We have cloned and characterized a cDNA,Npap60,encoding a rat nuclear pore-associated protein. The 3-kb cDNA was obtained by antibody screening of a rat testis expression library. The predicted NPAP60 contains 381 amino acids with a composition of 25.6% charged residues and is highly hydrophilic. TheNpap60gene appears to be conserved in mouse, rat, and human. Immunofluorescence studies with anti-NPAP60 fusion protein antibody show that the NPAP60 protein colocalizes with nuclear pore complexes in RAT1A cells. The expression ofNpap60is about 10–20 times higher in rat testis than in somatic tissues. The subcellular localization of NPAP60 protein changes dramatically during male germ cell differentiation, from nuclear pore complex-like staining in spermatocytes to whole nucleus staining in spermatids and finally to a nuclear surface staining in mature spermatozoa. These changes are temporally and spatially related to nuclear reorganization during male germ cell differentiation.     

CD19 maps to a region of conservation between human chromosome 16 and mouse chromosome 7

CD19 is a B lymphocyte cell surface protein expressed from the earliest stages of B lymphocyte development unitl their terminal differentiation into plasma cells. In this report the human CD19 gene (hCD19) was localized to band p11.2 on the proximal short arm of chromosome 16 by in situ hybridization to metaphase chromosomes, using hCD19 cDNA as probe. hCD19 gene localization was confirmed by polymerase chain reaction based analysis with hCD19-specific primers, using a panel of human/hamster somatic cell hybrid DNA as templates. The mouse CD19 gene (MCd19) was mapped to bands F3-F4 of chromosome 7 by in situ hybridization to metaphase chromosomes, using a mCD19 cDNA probe. Segregation analysis of nucleotide sequence polymorphisms in inter-specific backcross progeny revealed linkage of mCd19 with hemoglobin (Hbb), Int-2, and H19, other loci previously mapped to the same region of mouse chromosome 7, confirming the localization of mCd19 to this region. The order of these loci was determined to be centromere — Hbb — mCd19 — H19 — Int-2 —telomere. The genetic distance between the loci examined, calculated from the recombination frequencies, suggested that mCd19 was located centrally between Hbb and H19. This region of mouse chromosome 7 is homologous to the region of human chromosome 16 to which the hCD19 gene maps. Multiple genes with a lymphocyte-related function also map to this conserved region including genes encoding the IL-4 receptor, CD11a, CD11b, CD11c, CD43 (leukosialin), and protein kinase C polypeptide.     

Cloning of plant cDNAs encoding calmodulin-binding proteins using35S-labeled recombinant calmodulin as a probe

Radiolabelled calmodulin has previously been used to screen cDNA expression libraries to isolate calmodulin-binding proteins. We have modified this technique for the isolation of plant calmodulin-binding proteins. [³⁵S]-methionine was used instead of the inorganic [³⁵S]-sulfate, or¹²⁵I used in previous methods. In addition, theE. coli pET expression system was chosen to obtain high levels of recombinant calmodulin at the time of labelling. The procedure thus takes into account both the specific activity of the probe and the amount of protein necessary for screening a large number of filters. Here we describe in detail a procedure for the production and purification of [³⁵S]-recombinant calmodulin and the use of the radiolabelled protein as a probe to screen plant cDNA expression libraries. The [³⁵S]-labeled calmodulin probe easily detects the λICM-1 phage encoding a partial mouse calmodulin-dependent protein kinase II that was previously isolated using a [¹²⁵I]-calmodulin probe (Sikela and Hahn, 1987). Subsequently, a tobacco root cDNA expression library was screened and a positive clone encoding a calcium-dependent calmodulin-binding protein was isolated.     

Identification of Human N-Myristoylated Proteins from Human Complementary DNA Resources by Cell-Free and Cellular Metabolic Labeling Analyses

To identify physiologically important human N-myristoylated proteins, 90 cDNA clones predicted to encode human N-myristoylated proteins were selected from a human cDNA resource (4,369 Kazusa ORFeome project human cDNA clones) by two bioinformatic N-myristoylation prediction systems, NMT-The MYR Predictor and Myristoylator. After database searches to exclude known human N-myristoylated proteins, 37 cDNA clones were selected as potential human N-myristoylated proteins. The susceptibility of these cDNA clones to protein N-myristoylation was first evaluated using fusion proteins in which the N-terminal ten amino acid residues were fused to an epitope-tagged model protein. Then, protein N-myristoylation of the gene products of full-length cDNAs was evaluated by metabolic labeling experiments both in an insect cell-free protein synthesis system and in transfected human cells. As a result, the products of 13 cDNA clones (FBXL7, PPM1B, SAMM50, PLEKHN, AIFM3, C22orf42, STK32A, FAM131C, DRICH1, MCC1, HID1, P2RX5, STK32B) were found to be human N-myristoylated proteins. Analysis of the role of protein N-myristoylation on the intracellular localization of SAMM50, a mitochondrial outer membrane protein, revealed that protein N-myristoylation was required for proper targeting of SAMM50 to mitochondria. Thus, the strategy used in this study is useful for the identification of physiologically important human N-myristoylated proteins from human cDNA resources.     

High-Resolution Genetic Map of the Human Glutamyl Aminopeptidase Gene (ENPEP)

The murine B-lymphocyte differentiation antigen BP-1/6C3 has been identified as glutamyl aminopeptidase (EAP), the gene symbol for which isENPEP.Using genomic DNA encoding for human EAP as a probe, we identified theENPEPgene location on human chromosome 4q25 by polymerase chain reaction analysis of a human/rodent somatic cell hybrid mapping panel and by fluorescencein situhybridization. Using a radiation hybrid panel, the gene order aroundENPEPwas determined to be centromere–D4S1236–(570 kb)–ENPEP–(210 kb)–D4S262–(270 kb)–D4S953–(270 kb)–D4S474–(570 kb)–IF. The linkage ofENPEPto complement factor I (IF) confirms the human chromosome band 4q25 localization predicted from the chromosomal location of murineENPEP.HumanENPEPthus provides an additional marker for the long arm of chromosome 4 that should facilitate studies of this genomic region.     

Isolation and characterization of a <Emphasis Type="Italic">Paramecium</Emphasis> cDNA clone encoding a putative serine/threonine protein kinase

Mitogen-activated protein (MAP) kinases, a closely related family of protein kinases, are involved in cell cycle regulation and differentiation in yeast and human cells. They have not been documented in ciliates. We used PCR to amplify DNA sequences of a ciliated protozoan—Paramecium caudatum—using primers corresponding to amino acid sequences that are common to MAP kinases. We isolated and sequenced one putative MAP kinase-like serine/threonine kinase cDNA from P. caudatum. This cDNA, called pcstk1 (Paramecium caudatum Serine/Threonine Kinase 1) shared approximately 35% amino acid identity with MAP kinases from yeast. MAP kinases are activated by phosphorylation of specific threonine and tyrosine residues. These two amino acid residues are conserved in the PCSTK1 sequence at positions Thr 159 and Tyr 161. The PSTAIRE motif, which is characteristic of the CDK2 gene family, cannot be found in ORF of PCSTK1. The highest homology score was to human STK9, which contains MAP type kinase domains. Comparisons of expression level have shown that pcstk1 is expressed equally in cells at different stages (sexual and asexual). We discussed the possibility, as in other organisms, that a family of MAP kinase genes exists in P. caudatum.     

Cloning,expression and genomic structure of a novel human GNB2L1 gene,which encodes a receptor of activated protein kinase C (RACK)*

During a large-scale screen of a human fetal brain cDNA library, a novel human gene GNB2L1 encoding a novel RACK (receptor of activated protein kinase C) protein was isolated and sequenced. The cDNA is 1142 bp long and has a predicted open reading frame encoding 316 aa. The predicted protein shows higher similarity to rat RACK1 and many RACK proteins of different organisms including Drosophila, C. elegans, mouse, rat, human, C. fasciculata, zebrafish, A. thaliana, S. cerevisiae and so on, suggesting it is conserved during evolution. The gene was mapped to human chromosome 5q35.3, the telomer position of chromosome 5q, in which the disease gene for early-onset primary congenital lymphedema was mapped. Also, 5q35.3 is a frequently reported location for cytogenetic and molecular abnormalities in renal cell carcinomas. The gene has 8 exons and 7 introns. It is expressed ubiquitously in many human tissues detected by northern blot analysis and RT-PCR.     

Characterisation ofSaccharomyces cerevisiae genes encoding ribosomal protein YL6

We have characterised aSaccharomyces cerevisiae cDNA (cDNA13), originally isolated on the basis of the short half-life of the corresponding mRNA. We show here that its sequence is closely related to that of the genes encoding ribosomal proteins K37, KD4 and K5 ofSchizosaccharomyces pombe. mRNA13 also behaves like other mRNAs encoding ribosomal proteins, in that its abundance increases sharply when glucose is added to cells grown on ethanol (nutrient-up shift), and declines when cells are subjected to a mild heat-shock. Unspliced mRNA13 accumulates when cells bearing a temperature-sensitive splicing mutation are grown at the restrictive temperature. The gene(s) corresponding to cDNA13, like other ribosomal protein genes ofS. cerevisiae, thus contain an intron. Southern blot analysis indicates the presence of two separate loci related to cDNA13 in theS. cerevisiae genome. From the sequence of one of these, a complete polypeptide sequence was deduced. The first 40 amino acids are identical to those of YL6, aS. cerevisiae ribosomal protein characterised only by N-terminal protein sequence analysis. There is clear evidence within the genomic sequence for the predicted intron, and for elements similar to those that regulate expression of otherS. cerevisiae ribosomal protein genes.Nucleotide sequence data reported in this paper have been submitted to GenBank data base with the accession numbers U17359 and U17360     

Isolation and characterization of a human putative receptor protein kinase cDNA STYK1*

Protein kinases (PKs) represent a well studied but most diverse protein superfamily. The covalent, reversible linkage of phosphate to serine, threonine, and tyrosine residues of substrate proteins by protein kinases is probably ubiquitous cellular mechanism for regulation of physiological processes. It is known to us that most signaling pathways impinge at some point on protein kinases. Here we report a human putative receptor protein kinase cDNA STYK1. The STYK1 cDNA is 2749 base pairs in length and contains an open reading frame encoding 422 amino acids. The STYK1 gene is mapped to human chromosome 12p13 and 11 exons were found. RT-PCR showed that STYK1 is widely expressed in human tissues.     

Homologous and heterologous expression of a ribosomal protein gene in Podospora anserina requires an intron

Although the role of introns in eucaryotic nuclear genes has been much debated, it remains underinvestigated in fungi. The AS1 gene of Podospora anserina contains three introns and encodes a ribosomal protein (S12) belonging to the well-conserved bacterial S19 family. We attempted to complement the highly pleiotropic mutation AS1-4 with a cDNA encoding the homologous human (S15) protein (rig gene) under the control of the AS1 promoter. In a control experiment, the AS1 ⁺ cDNA was unable to complement fully the AS1-4 mutation. It was assumed that the AS1 cDNA was not well expressed and that the AS1 gene needed intron(s) to be efficiently expressed. Addition of the first intron of the AS1 gene to the AS1 and rig cDNAs did indeed allow complementation of all the phenotypic defects of the AS1-4 mutation. These data lead to two main conclusions. First, the human S15 ribosomal protein is functional in Podospora. Second, full expression of the Podospora AS1 gene requires at least one intron. Received: 26 April 1996 / Accepted: 22 August 1996     

玉米大斑病菌STK1与EGFP融合基因载体的构建及其在毕赤酵母中的表达

STK1基因是玉米大斑病菌调控分生孢子发育、渗透胁迫调节和致病性的重要MAPK基因。本文首先构建了含有增强型绿色荧光蛋白基因(EGFP)的毕赤酵母GSS115(Pichia pastoris GS115)表达载体p PIC3.5K-EGFP,再以玉米大班病菌模式菌株01-23的菌丝c DNA为模板,PCR扩增STK1基因,克隆到p PIC3.5K-EGFP,构建了STK1-EGFP融合基因的GS115表达载体p PIC3.5K-STK1-EGFP。利用电击转化法将该融合基因表达载体转化到GS115感受态细胞内,利用MD培养基筛选、PCR鉴定,获得了STK1-EGFP融合基因的毕赤酵母转化子。通过RT-PCR和荧光观察,发现STK1基因和EGFP基因均可以高效稳定地表达。另外,在试验中我们还发现,在STK1基因起始密码子前加入Kozak序列可以使STK1-EGFP融合基因的表达强度增强4.8倍。以上研究结果为STK1基因表达蛋白的亚细胞功能定位和抗体制备奠定了基础。