Cell-cycle-dependent expression of the STK-1 gene encoding a novel murine putative protein kinase

We have cloned a novel putative serine/threonine kinase-encoding gene, designated STK-1, from murine embryonic stem (ES) cell and testis cDNA libraries. The kinase most closely related to STK-1 is Xenopus laevis XLP46 protein kinase which shows 71% amino-acid identity to STK-1 between their kinase domains. Nevertheless, STK-1 is conserved throughout phylogeny with hybridizing sequences being detected in DNA from mammals, amphibians, insects and yeast. STK-1 mRNA is detected in testis, intestine and spleen, tissues that contain a large number of proliferating cells, but not in other tissues. All cell lines tested expressed STK-1 mRNA with levels being dependent upon proliferation rates. In NIH 3T3 cells, STK-1 is expressed in a cell-cycle-dependent fashion. These findings suggest a role for STK-1 in cell growth     

与紫云英转脂蛋白AsE246相互作用靶蛋白的筛选及其基因表达特征

【目的】AsE246是我们首次报道的紫云英根瘤特异表达的非特异性转脂蛋白(nsLTP1:non specificlipid transfer protein 1)编码基因。本实验旨在筛选和鉴定与AsE246相互作用的宿主植物靶蛋白,并分析靶基因在共生和胁迫条件下的表达特征。【方法】利用酵母双杂交技术、小范围杂交技术及实时荧光定量PCR,筛选与AsE246的相互作用蛋白,并定量分析靶基因在结瘤与固氮过程中的时空表达特性。【结果】获取一个阳性克隆,其cDNA序列经Blast分析表明:候选靶蛋白是一个DnaJ-like蛋白,该蛋白相应基因命名为AsDJL1。AsE246与AsDJL1在酵母体内确实相互作用。AsDJL1在固氮根瘤中特异性增强表达,在NaCl胁迫下表达水平显著提高,在(NH4)2SO4胁迫下表达水平显著下降。【结论】本实验是筛选与LTP相互作用蛋白的首次报道。获得了直接的实验证据表明互作基因AsDJL1与AsE246具有高度相似的表达特征和功能,为深入研究二者的相互作用及其在共生固氮和应答环境胁迫中的调控机制,提供了一定的工作基础和理论依据。     

A novel yeast gene coding for a putative protein kinase

A yeast gene termed YKR2 coding for a putative protein kinase was isolated using the cloned cDNA for rabbit protein kinase C as a hybridization probe. The encoded protein YKR2, containing 677 amino acids, shows about 40% sequence identity in the kinase region to a family of serine/threonine-specific protein kinases from various species.     

Presence of a novel exon 2E encoding a putative transmembrane protein in human IL-33 gene

Interleukin-33 (IL-33) is a dual-function molecule that regulates gene expression in nuclei and, as a cytokine, conveys proinflammatory signals from outside of cells via its specific receptor ST2L. There are still a lot of questions about localization and processing of IL-33 gene products. In the course of re-evaluating human IL-33 gene, we found distinct promoter usage depending on the cell type, similar to the case in the ST2 gene. Furthermore, we found a novel exon 2E in the conventional intron 2 whose open reading frame corresponded to a transmembrane protein of 131 amino acids. Dependence of exon 2E expression on differentiation of HUVEC cells is of great interest in relation to human IL-33 function.     

Cloning and characterization of a novel human SPRYD4 gene encoding a putative SPRY domain-containing protein.

We report here the cloning and characterization of a novel human SPRYD4 gene which encodes a SPRY domain containing protein. The SPRYD4 gene is isolated from the human brain cDNA library, and mapped to 12q13.2 by searching the UCSC genomic database. The SPRYD4 cDNA is 1201 base pairs in length and contains an open reading frame encoding 207 amino acids. The SPRYD4 gene consists of two exons and encodes a putative protein with a SPRY domain ranging from 86 to 203 amino acids. The RT-PCR analysis reveals that SPRYD4 is ubiquitously expressed in 18 human tissues. However, it is strongly expressed in kidney, bladder, brain, thymus and stomach, while weakly expressed liver, testis, uterus, spleen and lung. Subcellular localization demonstrates that SPRYD4 protein is localized in the nuclear when overexpressed in COS-7 cell.     

The novel gene encoding a putative transmembrane protein is mutated in gnathodiaphyseal dysplasia (GDD)

Gnathodiaphyseal dysplasia (GDD) is a rare skeletal syndrome characterized by bone fragility, sclerosis of tubular bones, and cemento-osseous lesions of the jawbone. By linkage analysis of a large Japanese family with GDD, we previously mapped the GDD locus to chromosome 11p14.3-15.1. In the critical region determined by recombination mapping, we identified a novel gene (GDD1) that encodes a 913-amino-acid protein containing eight putative transmembrane-spanning domains. Two missense mutations (C356R and C356G) of GDD1 were identified in the two families with GDD (the original Japanese family and a new African American family), and both missense mutations occur at the cysteine residue at amino acid 356, which is evolutionarily conserved among human, mouse, zebrafish, fruit fly, and mosquito. Cellular localization to the endoplasmic reticulum suggests a role for GDD1 in the regulation of intracellular calcium homeostasis.     

A cDNA encoding a putative SPF1-type DNA-binding protein from cucumber

A cDNA clone encoding a polypeptide with homology to the novel SPF1 DNA-binding protein of sweet potato has been isolated from a cDNA library from RNA of senescing cucumber (Cucumis sativus, L.) cotyledons. Comparison of the two sequences reveals similar features which may be important in the evolution and function of this protein, including a duplicated region of about 56 amino acids (aa). The first half of the duplicated region is enriched in basic aa and is very highly conserved, both within and between each polypeptide. In contrast, the second half of the duplicated region is poorly conserved within each polypeptide, but highly conserved when cucumber and sweet potato sequences are compared. Southern blot analysis with cucumber DNA shows a simple hybridisation pattern indicating one or very few genes. Northern blot analysis shows that the expression of the cucumber gene increases in cotyledons as they expand and become photosynthetic and remains high in senescence. The possibility that the cucumber SPF1-type protein may be involved in carbohydrate regulation of gene expression is discussed.     

A novel Bacillus thuringiensis gene encoding a Spodoptera exigua-specific crystal protein

Only one of the four lepidoptera-specific crystal protein subclasses (CryIC) Bacillus thuringiensis was previously shown to be highly toxic against several Spodoptera species. By using a cryIC-derived nucleotide probe, DNA from 25 different strains of B. thuringiensis was screened for the presence of homologous sequences. A putative crystal protein gene, considerably different from the cryIC gene subclass, was identified in the DNA of strain 4F1 (serotype kenyae) and cloned in Escherichia coli. Its nucleotide sequence was determined and appeared to contain several features typical for a crystal protein gene. Furthermore, the region coding for the N-terminal part of the putative toxic fragment showed extensive homology to subclass cryIA sequences derived from gene BtII, whereas the region coding for the C-terminal part appeared to be highly homologous to the cryIC gene BtVI. With an anti-crystal protein antiserum, a polypeptide of the expected size could be demonstrated in Western immunoblots, onto which a lysate of E. coli cells harboring the putative gene, now designated as BtXI, had been transferred. Cells expressing the gene appeared to be equally toxic against larvae of Spodoptera exigua as recombinant cells expressing the BtVI (cryIC)-encoded crystal protein. However, no toxicity against larvae of Heliothis virescens, Mamestra brassicae, or Pieris brassicae could be demonstrated. The nucleotide sequence analysis and the toxicity studies showed that this novel crystal protein gene falls into a new cryl gene subclass. We propose that this subclass be referred to as cryIE.     

Cloning and characterization of CSP37, a novel gene encoding a putative membrane protein of Candida albicans.

In the course of an analysis of the functions and assembly of the cell wall of Candida albicans, we have cloned and characterized a gene, which we designated CSP37 (cell surface protein), encoding a 37-kDa polypeptide which is a membrane-associated protein. The gene was isolated by immunological screening of a DNA library constructed from mycelial cells with a polyclonal serum raised against cell walls of this morphology. Analysis of the nucleotide sequence of a corresponding genomic DNA fragment revealed a single open reading frame which encodes a predicted protein of 321 amino acids with no significant homology to others in the databases. Disruption of the CSP37 gene by the method described by Fonzi and Irwin (Genetics 134:717-728, 1993) eliminated expression of the Csp37 protein. The mutant strains showed no apparent defect in cell viability, growth, or cell wall assembly but displayed attenuated virulence in systemic infections induced in mice and reduced the ability to adhere to polystyrene.     

Expression of DDSG1, a novel gene encoding a putative DNA-binding protein in the embryonic chicken nervous system

In an attempt to clone genes expressed in the gizzard of the chicken embryo by differential display, we obtained a cDNA of a gene encoding a protein with a putative nuclear localization signal and a DNA-binding motif and designated it DDSG1 (differential display-screened gene expressed in the gizzard-1). Besides its expression in the gizzard, the gene is expressed in central and peripheral nervous systems such as brain, spinal cord and dorsal root ganglia in specific patterns.     

A novel wheat gene encoding a putative chitin-binding lectin is associated with resistance against Hessian fly

The gene-for-gene interaction triggering resistance of wheat against first-instar Hessian fly larvae utilizes specialized defence response genes not previously identified in other interactions with pests or pathogens. We characterized the expression of Hfr-3 , a novel gene encoding a lectin-like protein with 68–70% identity to the wheat germ agglutinins. Within each of the four predicted chitin-binding hevein domains, the HFR-3 translated protein sequence contained five conserved saccharide-binding amino acids. Quantification of Hfr-3 mRNA levels confirmed a rapid response and gradual increase, up to 3000-fold above the uninfested control in the incompatible interaction 3 days after egg hatch. Hfr-3 mRNA abundance was influenced by the number of larvae per plant, suggesting that resistance is localized rather than systemic. In addition, Hfr-3 was responsive to another sucking insect, the bird cherry-oat aphid, but not to fall armyworm attack, wounding or exogenous application of methyl jasmonate, salicylic acid or abscisic acid. Western blot analysis demonstrated that HFR-3 protein increased in parallel to mRNA levels in crown tissues during incompatible interactions. HFR-3 protein was detected in both virulent and avirulent larvae, indicating ingestion. Anti-nutritional proteins, such as lectins, may be responsible for the apparent starvation of avirulent first-instar Hessian fly larvae during the initial few days of incompatible interactions with resistant wheat plants.     

Characterization of a flower-specific gene encoding a putative myrosinase binding protein in Arabidopsis thaliana

A cDNA clone, 4B-1, previously isolated by differential screening is preferentially expressed in floral organs of Arabidopsis thaliana. Characterization of the full length cDNA and the genetic locus corresponding to 4B-1 cDNA revealed that it potentially encodes a myrosinase binding protein (MBP) which is presumably present in a large myrosinase complex. The deduced amino acid sequence of the polypeptide encoded by cDNA clone (designated f-AtMBP) appeared to consist of two parts: one region at the C-terminal half representing overall homology with AtMBP, an MBP homologue in A. thaliana, and the other at an extended N-terminal region of about 150 amino acids showing significant identity with the N-terminal region of the MBP-related protein reported in Brassica. Expression analysis by RNA blot and in situ hybridization showed that f-AtMBP was specifically expressed in floral meristems, pistils, stamens, petals, and ovules of immature flowers, but no expression was observed in the specialized cells called the myrosin cells in the hypocotyl and cotyledons of developing seeds where myrosinase enzymes are normally found. Although MBPs and MBP-related proteins are considered to be inducible by exogenous application of signal molecules and physical wounding, we found that f-AtMBP expression was not activated by such treatment, suggesting that f-AtMBP is a novel type of MBP specific to floral organs.     

Molecular characterization of a novel soybean gene encoding a neutral PR-5 protein induced by high-salt stress

In this study, we characterized a novel soybean gene encoding a neutral PR-5 protein and compared it to two acidic isoforms of soybean PR-5 protein. This gene, designated as Glycine max osmotin-like protein, b isoform (GmOLPb, accession no. AB370233), encoded a putative protein having the greatest similarity to chickpea PR-5b (89% identity). Unlike the two acidic PR-5, GmOLPa and P21, the protein had a C-terminal elongation responsible for possible vacuolar targeting and after maturation showed a calculated molecular mass of 21.9 kDa with pI 6.0. The 3D models, predicted by the homology modeling, contained four α-helixes and 16 β-strands and formed three characteristic domains. The two acidic PR-5 proteins also showed a 3D structure very similar to GmOLPb, although the electrostatic potential on molecular surface of each PR-5 was significantly different. In the study of the gene expression under conditions of high-salt stress, GmOLPb was highly induced in the leaves of the soybean, particularly in the lower part of a leaf. The expression started at 2 h after initiation of the stress and was highly induced between 18–72 h. Gene expression of P21e (protein homologous to P21) was transiently induced by high-salt stress, but took place earlier than the gene expressions of GmOLPa and GmOLPb. Such differential expression was observed also under investigation with methyl jasmonate and salicylic acid. These results suggested that each soybean PR-5 might play a distinctive role in the defensive system protecting the soybean plant against high-salt stress, particularly in the leaves of the soybean.