The WHI1+ gene of Saccharomyces cerevisiae tethers cell division to cell size and is a cyclin homolog.

WHI1-1 is a dominant mutation that reduces cell volume by allowing cells to commit to division at abnormally small sizes, shortening the G1 phase of the cell cycle. The gene was cloned, and dosage studies indicated that the normal gene activated commitment to division in a dose-dependent manner, and that the mutant gene had a hyperactive but qualitatively similar function. Mild over-expression of the mutant gene eliminated G1 phase, apparently entirely relaxing the normal G1 size control, but revealing hitherto cryptic controls. Sequence analysis showed that the hyperactivity of the mutant was caused by the loss of the C-terminal third of the wild-type protein. This portion of the protein contained PEST regions, which may be signals for protein degradation. The WHI1 protein had sequence similarity to clam cyclin A, to sea urchin cyclin and to Schizosaccharomyces pombe cdc13, a cyclin homolog. Since cyclins are inducers of mitosis, WHI1 may be a direct regulator of commitment to division. A probable accessory function of the WHI1 activator is to assist recovery from alpha factor arrest; WHI1-1 mutant cells could not be permanently arrested by pheromone, consistent with a hyperactivation of division.     

The 5'' flanking region of human epsilon-globin gene.

The structural analysis of the 2.0 kb region upstream from the epsilon-globin gene has been carried out. A genomic DNA map around the gene was worked out in some detail to ensure that the cloned DNA was representative of the actual chromosomal arrangement. Furthermore, a new technique was developed to precisely map a reiterated DNA sequence present 1.5 kb to the 5' side of the gene. The complete nucleotide sequence of the 2.0 kb 5' flanking region was then determined and overlapped with the gene. The sequence included the reiterated DNA sequence which is homologous to the so-called AluI family of repeats. Unusual stretches of sequence 50 nucleotides long, where A + T represent about 90% of the bases, are present at both the 5' and 3' sides of the repeat.     

Sequence polymorphisms in the 5'-upstream region of the fibroin H-chain gene in the silkworm, Bombyx mori

DNA fragments containing the fibroin H-chain gene from two different strains of Bombyx mori, J-139 and Nd (2) were cloned into phage lambda Charon 4A. Comparison of the restriction sites in these cloned DNAs revealed that in addition to the known polymorphism in the region coding for the repetitive amino acid sequence of the fibroin H-chain [Manning and Gage, J. Biol. Chem. 255 (1980) 9451-9457], at least two other types of polymorphism were present, one around the 5' end of the structural gene, and the other in the far upstream region of the gene. Restriction sites around the 5' end of the gene were well conserved between these strains, but some heterogeneity, suggesting the presence of small insertions, deletions or base changes, was noted. In contrast, DNA sequences of the region 2-4 kb upstream from the 5' end of the gene were markedly different between these two strains, indicating that either a deletion or an insertion of a DNA sequence longer than 2 kb had occurred in this region. Comparison with several other strains suggested that the observed changes in the far-upstream region were unique to the Nd(2) strain.     

Cloning and expression of the genes of two fumarate reductase subunits from Wolinella succinogenes

The fumarate reductase complex of the anaerobic bacterium Wolinella succinogenes catalyzes the electron transfer from menaquinol to fumarate. Two structural genes coding for subunits of the enzyme have been cloned in Escherichia coli. The genes were isolated from a lambda EMBL3 phage gene bank by immunological screening and subcloned in an expression vector. The genes frdA and frdB, which encode the FAD protein (Frd A, Mr 79,000) and the iron-sulfur protein (Frd B, Mr 31,000) of the fumarate reductase complex, were cloned together with a W. succinogenes promoter. The gene order was promoter-frdA-frdB. The FAD protein and the iron-sulfur protein were expressed in the correct molar mass in E. coli from the clones. The identity of the frdA gene and the suggested polarity were confirmed by comparing the amino-terminal sequence of the Frd A protein with that predicted from the 5'-terminal nucleotide sequence of frdA. The frdA and frdB genes are present only once in the genome. A region downstream of frdB, possibly a gene encoding cytochrome b of the fumarate reductase complex, hybridizes with a second site in the genome.     

Cloning,DNA sequence,and expression of Aeromonas caviae WS7b chitinase gene

A chitinase-producing bacterium, designated WS7b, was isolated from a soil sample obtained from a black-pepper plantation on Bangka Island, Indonesia. Fatty-acid methyl-ester analysis indicated that the isolate was Aeromonas caviae. A chitinase gene from WS7b was cloned in a pUC19-based plasmid vector, but without its natural promoter. The complete nucleotide sequence of the gene was determined, and the structural gene consisted of a 2748-bp region encoding 864 amino acids. DNA sequence analysis indicated that the gene had been cloned without its promoter, and this was confirmed by chitinase-plate assay of the truncated version of the gene in Escherichia coli. The chitinase gene product showed amino-acid sequence similarity to chiA from A. caviae. Chitinase enzyme activity was determined spectrophotometrically, using colloidal chitin azure as substrate for extracellular and intracellular fractions. The ability of the chitinase cloned in E. coli to hydrolyze chitin was less than that of the enzyme in its indigenous host.     

Structure of a yeast non-initiating methionine-tRNA gene.

4 to 8 kb Hind III fragments of yeast DNA were cloned into pBR322. One of these clones (pY6m3) containing a single tRNA3Met gene has been characterized in detail. The DNA sequence of the structural gene is colinear with the tRNA sequence, which means that in this case no intervening sequence is present. The 5'-leader and 3'-trailer sequences have also been determined. The 5'-flanking region can be folded up into possible secondary structures.     

Molecular cloning and nucleotide sequence of leukocidin F-component gene (lukF) from methicillin resistant Staphylococcus aureus.

A lukF gene encoding F-component of Staphylococcal leukocidin from methicillin resistant Staphylococcus aureus (MRSA) was cloned. The nucleotide sequence of lukF gene was determined. The sequence data have revealed an open reading frame, which encodes a polypeptide with 323 amino acid residues. Inspection of the amino acid sequence deduced from nucleotide sequence of lukF and that from F-component of leukocidin from S. aureus V8 clarified that pre-matured F-component contains a typical signal peptide at the NH2 terminus and ATG starting codon for pre-matured F-component was present one base downstream to the TGA which is translation termination codon for S-component of leukocidin [A. Rahman et al. (1991) Biochem. Biophys. Res. Commun. 181, 138-144]. The nucleotide sequence of 5'-flanking region of lukF showed the presence of the consensus sequence of ribosome binding site in the internal region of the structural gene of S-component. The lukF was transcribed in the same direction as that of lukS. No Pribnow box can be discerned in the intercistronic region between the lukS and lukF genes. The amino acid sequence homology between S- and F-components was 31%. F-component was expressed in Escherichia coli DH5 alpha harboring plasmid pFRK92 which contained lukF gene.     

One of the copia genes is adjacent to satellite DNA in Drosophila melanogaster.

A method for purifying sequences adjacent to satellite DNA in the heterochromatin of D. melanogaster is described. A cloned DNA segment containing part of a copia gene adjacent to 1.688 g/cm3 satellite DNA has been isolated. The copia genes compose a repeated gene family which codes for abundant cytoplasmic poly(a)-containing RNA (Young and Hogness, 1977; Finnegan et al., 1978). We have identified two major poly (A)-containing RNA species [5.2 and 2.1 kilobases (kb)] produced by the copia gene family. The cloned segment contains copia sequences homologous to the 5' end of RNA within 0.65 kb of the 1.688 satellite DNA sequences. Seven different cloned copia genes from elsewhere in the genome have also been isolated, and a 5.2 kb region present in five of the clones was identified as copia by heteroduplex analysis. In addition, three ususual copies of copia were found: a "partial" copy of the gene (3.7 kb) which has one endpoint in common with the 5.2 kb unit; a copia gene flanked on one side by a 1.6 kb sequence and on the other by the same 1.6 kb sequence in the inverted orientation; and a copia gene flanked only on one side by the same sequence.     

Molecular cloning and sequence analysis of the X-prolyl dipeptidyl aminopeptidase gene from Lactococcus lactis subsp. cremoris.

Lactococcus lactis subsp. cremoris P8-2-47 contains an X-prolyl dipeptidyl aminopeptidase (X-PDAP; EC 3.4.14.5). A mixed-oligonucleotide probe prepared on the basis of the N-terminal amino acid sequence of the purified protein was made and used to screen a partial chromosomal DNA bank in Escherichia coli. A partial XbaI fragment cloned in pUC18 specified X-PDAP activity in E. coli clones. The fragment was also able to confer X-PDAP activity on Bacillus subtilis. The fact that none of these organisms contain this enzymatic activity indicated that the structural gene for X-PDAP had been cloned. The cloned fragment fully restored X-PDAP activity in X-PDAP-deficient mutants of L. lactis. We have sequenced a 3.8-kb fragment that includes the X-PDAP gene and its expression signals. The X-PDAP gene, designated pepXP, comprises 2,289 nucleotide residues encoding a protein of 763 amino acids with a predicted molecular weight of 87,787. No homology was detected between pepXP and genes that had been previously sequenced. A second open reading frame, divergently transcribed, was present in the sequenced fragment; the function or relationship to pepXP of this open reading frame is unknown.     

Molecular cloning and sequence analysis of the X-prolyl dipeptidyl aminopeptidase gene from Lactococcus lactis subsp. cremoris.

Lactococcus lactis subsp. cremoris P8-2-47 contains an X-prolyl dipeptidyl aminopeptidase (X-PDAP; EC 3.4.14.5). A mixed-oligonucleotide probe prepared on the basis of the N-terminal amino acid sequence of the purified protein was made and used to screen a partial chromosomal DNA bank in Escherichia coli. A partial XbaI fragment cloned in pUC18 specified X-PDAP activity in E. coli clones. The fragment was also able to confer X-PDAP activity on Bacillus subtilis. The fact that none of these organisms contain this enzymatic activity indicated that the structural gene for X-PDAP had been cloned. The cloned fragment fully restored X-PDAP activity in X-PDAP-deficient mutants of L. lactis. We have sequenced a 3.8-kb fragment that includes the X-PDAP gene and its expression signals. The X-PDAP gene, designated pepXP, comprises 2,289 nucleotide residues encoding a protein of 763 amino acids with a predicted molecular weight of 87,787. No homology was detected between pepXP and genes that had been previously sequenced. A second open reading frame, divergently transcribed, was present in the sequenced fragment; the function or relationship to pepXP of this open reading frame is unknown.     

Conserved chromatin structure in c-myc 5'flanking DNA after viral transduction

The role of local sequence information in establishing the chromatin structure of the human c-myc upstream region (MUR) was investigated. Adeno-associated virus (AAV)-mediated gene transduction was used to introduce an additional unrearranged copy of the 2.4 kb HindIII-XhoI fragment of the MUR into a novel location in the genome in each of two cloned HeLa cell lines. The AAV-based rep- cap- viral vector SKMA used to transduce the MUR retained only 1.4 kb (24%) of the AAV genome and could accommodate inserts as large as 2.4 kb. SKMA was capable of infecting HeLa cells and integrating into the host genome at single copy number. Integration may have occurred at a preferred site in the HeLa genome, but this site was apparently distinct from the previously identified preferred AAV integration site on human chromosome 19. Indirect end-labelling was used to map DNase I and micrococcal nuclease (MNase) cleavage sites over the transduced c-myc sequences and the endogenous c-myc loci in infected HeLa cells. A similarly ordered chromatin domain, extending 5' from c-myc promoter P0, was found to exist at the transduced c-myc locus in each clone. The position and relative sensitivity of 13 MNase cleavage sites and five DNase I hypersensitive sites, originally identified at the endogenous MUR in non-transduced cells, were shown to be conserved when this DNA was moved to a new chromosome site. A conserved DNase I hypersensitive site also was mapped to the region between the left AAV terminal repeat and AAV promoter P5. These results suggest that the information required to establish the particular chromatin structure of the MUR resides within the local DNA sequence of that region.     

Isolation and mapping of the first ruminant multidrug resistance genes

The first ruminant multiple drug resistance gene (MDR1) has been cloned and sequenced from sheep. Sequence data revealed the sheep MDR1 gene to have high sequence and structural similarity to other characterized MDR proteins from humans and rodents. A restriction fragment length polymorphism was discovered using the EcoRI enzyme and used to map the MDR1 gene to sheep chromosome 4. Physical mapping using fluorescent in situ hybridisation confirmed this map placement and assigned the MDR1 locus in the region 4q15-q21. The ovine MDR2 gene was also cloned and found to map to the same region as MDR1.     

Molecular cloning and analysis of yeast gene for cycloheximide resistance and ribosomal protein L29.

A cosmid clone bank of yeast DNA has been used to isolate the cycloheximide resistance gene cyh2 of Saccharomyces cerevisiae. A cosmid carrying this gene was identified by cross hybridization to another cloned gene, tsm437. The two genes, which are tightly linked genetically are both present on a 31 kb segment of cloned DNA. The cyh2 gene encodes ribosomal protein L29, a component of the large subunit. Blot hybridization analysis reveals that this gene is present as a single copy in the yeast genome, unlike many other yeast ribosomal protein genes which appear to be duplicated. The cyh2 gene also appears to contain an intervening sequence, a characteristic common to most yeast ribosomal protein genes that have been cloned.     

Nucleotide sequence of the structural gene for tryptophanase of Escherichia coli K-12.

The tryptophanase structural gene, tnaA, of Escherichia coli K-12 was cloned and sequenced. The size, amino acid composition, and sequence of the protein predicted from the nucleotide sequence agree with protein structure data previously acquired by others for the tryptophanase of E. coli B. Physiological data indicated that the region controlling expression of tnaA was present in the cloned segment. Sequence data suggested that a second structural gene of unknown function was located distal to tnaA and may be in the same operon. The pattern of codon usage in tnaA was intermediate between codon usage in four of the ribosomal protein structural genes and the structural genes for three of the tryptophan biosynthetic proteins.     

海洋链霉菌Streptomyces sp.B-17卤化酶基因的克隆及生物信息学分析

海洋放线菌是生理活性物质重要的产生菌,而海洋放线菌产生的卤化酶可催化生理活性物质的卤化,极大提高了其抑菌和抗癌活性。从大连海域分离出1株链霉菌Streptomyces sp.B-17,从其基因组DNA中扩增一524 bp的基因片段,经与pMD-19T载体连接,转化大肠埃希菌JM109感受态细胞,重组质粒经鉴定证明正向插入到pMD-19T载体。生物信息学分析表明该序列与Actinocorallia herbida DSM 44252的2个依赖FADH2卤化酶基因的同源性为88%,拟编码氨基酸与色氨酸卤化酶(CP001848)的相似性也达到74%,证明所克隆的基因片段为卤化酶基因片段,为后续的基因功能分析及表达奠定了基础。     

Cloning and expression of the H chain V region of antibody OVB3 that reacts with human ovarian cancer

Hybridoma OVB3 produces an antibody (IgG2b kappa) that reacts with an Ag present on the surface of almost all human ovarian carcinomas. An EcoRI fragment of genomic DNA containing the rearranged H chain V region of monoclonal OVB3 was cloned from a lambda gtWES library and then sub-cloned into a pGEM4 vector. To show that the cloned DNA sequence did encode the V region of a functional antibody, the DNA fragment was inserted into plasmid pSV-VNP gamma SNase in place of VNp to produce pSV-VOVB3 gamma SNase. This plasmid was then transfected into variant OVB3 hybridoma cells, which no longer produced the H chain of antibody OVB3, and functional antibody was secreted by the recipient cells. The recombinant chimeric antibody bound to ovarian cancer cells and contained Staphylococcus aureus nuclease activity, proving that a functional V region gene had been cloned.     

核基质结合区对转爬山虎芪合酶基因烟草中产生白藜芦醇的作用

采用核基质结合区(MARs)来提高转芪合酶基因(STS)烟草(Nicotianatabacum L.)中白藜芦醇产物的含量.MARs是细胞中能与核基质特异紧密结合的DNA片段,体外结合实验表明克隆自酵母的MARs序列能特异地与烟草核基质结合.芪合酶是白藜芦醇生物合成中的关键酶,用RT-PCR方法从川鄂爬山虎(Parthenocissus henryana(Hemsl.)Diels et Gilg)中克隆了与葡萄芪合酶基因有较高同源性的芪合酶编码区,将其置于CaMV35SΩ强启动子下,分别构建两侧带有MARs及不含MARs序列的表达载体,通过农杆菌介导转化烟草.Northern blot及HPLC等分析表明STS基因已整合至烟草染色体中并正常转录,且表达的外源芪合酶在烟草中可催化其底物合成白藜芦醇产物.与对照相比,MARs的存在使转芪合酶基因烟草中白藜芦醇的含量平均提高了约一倍.MARs在转芪合酶基因植物中的应用也为获得抗病性更强、白藜芦醇含量更高、更保健的转基因果蔬的研究奠定了基础.