Four ubiquitously expressed genes, RD (D6S45)-SKI2W (SKIV2L)-DOM3Z-RP1 (D6S60E), are present between complement component genes factor B and C4 in the class III region of the HLA

The association of the HLA class III region with many diseases motivates the investigation of unidentified genes in the 30-kb segment between complement component genes Bf and C4. RD, which codes for a putative RNA binding protein, is 205 bp downstream of Bf. SKI2W (HGMW-approved symbol SKIV2L), a DEVH-box gene probably involved in RNA turnover, is 171 bp downstream of RD (HGMW-approved symbol D6S45). RP1 (HGMW-approved symbol D6S60E) is located 611 bp upstream of C4. The DNA sequence between human RD and RP1 was determined and the exon-intron structure of SKI2W elucidated. SKI2W consists of 28 exons. The putative RNA helicase domain of Ski2w is encoded by 9 exons. Further analysis of the 2.5-kb intergenic sequence between SKI2W and RP1 led to the discovery of DOM3Z. The full-length cDNA sequence of DOM3Z encodes 396 amino acids with a leucine zipper motif. Dom3z-related proteins are present in simple and complex eukaryotes. In Caenorhabditis elegans, Dom3z-related protein could be involved in the development of germ cells. Human RD-SKI2W and DOM3Z-RP1 are arranged as two head-to-head oriented gene pairs with unmethylated CpG sequences at the common 5' regulatory region of each gene pair. The ubiquitous expression pattern suggests that these four genes are probably housekeeping genes.     

The gluconate high affinity transport of GntI in Escherichia coli involves a multicomponent complex system

Within the main system for gluconate utilization in E. coli, the gntT gene (located at the minute 76.4) that encodes a permease, is currently the only element involved in the high affinity transport. In this paper, the nucleotide sequence of the upstream region of this locus was determined. Two open reading frames of 729 bp (gntX) and 573 bp (gntY) were identified as additional gnt genes by complementation studies. Our observations suggest that these loci might conform an operon distinct of gntT under the control of the gntR gene product. Such operon encodes a gluconate periplasmic binding protein (GntX) and a putative membrane-bound protein (GntY). These products and the permease encoded by the gntT gene seem to conform a high-affinity complex transport system for gluconate. We suggest that this novel system could belong to the TRAP transporters.     

Immunohistochemical localization of the epidermal growth factor, transforming growth factor alpha, and their receptor in the human mesonephros and metanephros

Nucleotide sequence analysis of a 3.3-kb genomic EcoRI fragment and of relevant subfragments of a genomic 13.2-kb SmaI fragment of Alcaligenes eutrophus, which were identified by using a dihydrolipoamide dehydrogenase-specific DNA probe, revealed the structural genes of the 2-oxoglutarate dehydrogenase complex in a 7.5-kb genomic region. The genes odhA (2850 bp), odhB (1248 bp), and odhL (1422 bp), encoding 2-oxoglutarate dehydrogenase (E1), dihydrolipoamide succinyltransferase (E2), and dihydrolipoamide dehydrogenase (E3), respectively, occur co-linearly in one gene cluster downstream of a putative -35/-10 promoter in the order odhA, odhB, and odhL. In comparison to other bacteria, the occurrence of genes for two E3 components for the pyruvate as well as for the 2-oxoglutarate dehydrogenase complexes is unique. Heterologous expression of the A. eutrophus odh genes in E. coli XL1-Blue and in the kgdA mutant Pseudomonas putida JS347 was demonstrated by the occurrence of protein bands in electropherograms, by spectrometric detection of enzyme activities, and by phenotypic complementation, respectively.     

Purification of the pyruvate dehydrogenase multienzyme complex of Zymomonas mobilis and identification and sequence analysis of the corresponding genes

The pyruvate dehydrogenase (PDH) complex of the gram-negative bacterium Zymomonas mobilis was purified to homogeneity. From 250 g of cells, we isolated 1 mg of PDH complex with a specific activity of 12.6 U/mg of protein. Analysis of subunit composition revealed a PDH (E1) consisting of the two subunits E1alpha (38 kDa) and E1beta (56 kDa), a dihydrolipoamide acetyltransferase (E2) of 48 kDa, and a lipoamide dehydrogenase (E3) of 50 kDa. The E2 core of the complex is arranged to form a pentagonal dodecahedron, as shown by electron microscopic images, resembling the quaternary structures of PDH complexes from gram-positive bacteria and eukaryotes. The PDH complex-encoding genes were identified by hybridization experiments and sequence analysis in two separate gene regions in the genome of Z. mobilis. The genes pdhAalpha (1,065 bp) and pdhAbeta (1,389 bp), encoding the E1alpha and E1beta subunits of the E1 component, were located downstream of the gene encoding enolase. The pdhB (1,323 bp) and lpd (1,401 bp) genes, encoding the E2 and E3 components, were identified in an unrelated gene region together with a 450-bp open reading frame (ORF) of unknown function in the order pdhB-ORF2-lpd. Highest similarities of the gene products of the pdhAalpha, pdhAbeta, and pdhB genes were found with the corresponding enzymes of Saccharomyces cerevisiae and other eukaryotes. Like the dihydrolipoamide acetyltransferases of S. cerevisiae and numerous other organisms, the product of the pdhB gene contains a single lipoyl domain. The E1beta subunit PDH was found to contain an amino-terminal lipoyl domain, a property which is unique among PDHs.     

Coexistence of psoriasis and an unusual IgG-mediated subepidermal bullous dermatosis: identification of a novel 200-kDa lower lamina lucida target antigen

The CO dehydrogenase enzyme complex from Methanosarcina thermophila contains a corrinoid/iron-sulfur enzyme composed of two subunits (delta and gamma). The cdhD and cdhE genes, which encode the delta and gamma subunits, respectively, were cloned and sequenced. The cdhD gene is upstream of and separated by 3 bp from cdhE. Both genes are preceded by apparent ribosome-binding sites. Northern (RNA) blot and primer extension analyses indicated that cdhD and cdhE are cotranscribed from a promoter located several kilobases upstream of cdhD. The putative CdhD and CdhE sequences are 37% identical to the sequences deduced from the genes encoding the beta and alpha subunits of the corrinoid/iron-sulfur enzyme from Clostridium thermoaceticum. The CdhE sequence had a four-cysteine motif with the potential to bind a 4Fe-4S cluster previously identified in the corrinoid/iron-sulfur enzyme by electron paramagnetic resonance spectroscopy. A T7 RNA polymerase/promoter system was used to produce CdhD and CdhE independently in Escherichia coli. The purified CdhD protein was reconstituted with hydroxocobalamin in the base-on configuration. The purified CdhE protein exhibited an Fe-S center and base-off cobalamin binding in which the benzimidazole base nitrogen atom was no longer a lower axial ligand to the cobalt atom.     

Cutaneous suspension: immediate breast reconstruction with abdominal cutaneous advancement using a non-resorptive mesh. Preliminary results and report of 28 cases]

The nucleotide sequence of 22,803 bp on the left arm of chromosome VII was determined by polymerase chain reaction-based approaches to compensate for the unstable character of cosmid clones from this region of the chromosome. The coding density of the sequence is particularly high (more than 83%). Twelve open reading frames (ORFs) longer than 300 bp were found, two of which (at the left side) have been described previously (James et al., 1995) after sequencing of an overlapping cosmid. Four other ORFs correspond to published sequences of the known genes ARO2, RPL9A, TIP1 and MRF1. ARO2 codes for chorismate synthetase. RPL9A for protein L9 of the large ribosomal subunit and MRF1 for a mitochondrial translation release factor. The TIP1 product interacts with Sec20p and is thus involved in transport from endoplasmic reticulum to Golgi. Five of the remaining ORFs have not been identified previously, while the sixth (YGL142c) has been partially sequenced as it lies 5' upstream of MRF1. These six ORFs are relatively large (between 933 and 3657 nucleotides). YGL146c, YGL142c, YGL140c and YGL139w have no significant homology to any protein sequence presently available in the public databases, but show two, nine, nine and eight putative transmembrane spans, respectively. YGL144c has a serine active site signature of lipases. YGL141w has limited homology to several human proteins, one of which mediates complex formation between papillomavirus E6 oncoprotein and tumor suppressor protein p53.     

Molecular biology of muscle development

The UL52 and UL53 genes of herpes simplex virus type-1 are both located in the BamHI-L DNA fragment, with an overlap of 14 amino acids. An RNase protection experiment was designed to determine the 5' termini of both the UL52 and UL53 mRNAs. The 5' end of the UL52 mRNA was found to be located 100 bp upstream of its ATG initiation codon. Surprisingly, the 5' terminus of the UL53 gene was found to be downstream of its putative initiation codon. Therefore, it was suggested that the translation of the UL53 open reading frame (ORF) starts at an internal initiation codon that is located 55 codons downstream of the putative one. A hybrid selection experiment was performed in which the UL53-specific mRNA was selected from BSC-1 cells infected with HSV-1 KOS and translated in vitro. The translation product of the UL53 message was found to be 32 kD (shorter than the original 37.5 kD ORF). The size of the protein obtained corresponds with the expected translation product starting at the downstream initiation codon. Analysis of the sequence upstream of this initiation codon reveals the presence of a promotor sequence. Therefore, we suggest that the UL53 protein is 54 amino acids shorter than was previously suggested and is located at coordinates 112,341-113,193.     

Isolation, characterization and sequence analysis of the scrK gene encoding fructokinase of Streptococcus mutans

A gene encoding an ATP-dependent fructokinase from Streptococcus mutans GS-5 was identified within a 2 kb DNA fragment immediately downstream from the scrA gene. The gene cloned in Escherichia coli also expressed mannokinase activity. Insertional inactivation of this gene in S. mutans markedly decreased both fructokinase and mannokinase activities. Nucleotide sequence analysis of the 2 kb fragment revealed an ORF starting 199 bp downstream from the scrA gene, preceded by potential ribosome-binding (Shine-Dalgarno) and promoter-like sequences. This ORF specified a putative protein of 293 amino acids with a calculated M(r) of 31,681. The deduced amino acid sequence of the fructokinase gene, scrK, from S. mutans exhibited no significant similarity to fructokinase genes from Klebsiella pneumoniae, E. coli plasmid pUR400 or Vibrio alginolyticus, but was similar to a comparable gene from Zymomonas mobilis.     

Detection of a homozygous four base pair deletion in the protein X gene in a case of pyruvate dehydrogenase complex deficiency

While the presence of a lipoyl-containing protein (protein X) separate from lipoyl transacetylase in the pyruvate dehydrogenase complex (PDC) has been known for some time, until recently only the cDNA for the yeast enzyme has been cloned. We have cloned, sequenced and characterized the cDNA encoding the human protein X and localized the protein X gene to chromosome 11p13. We also report here a new case of protein X deficiency identified immunologically, with decreased activity of PDC and without mutations in the E1alpha subunit or E1beta subunit. We report that the cDNA and gene of this patient for protein X has a homozygous 4 bp deletion, specifically in the putative mitochondrial targeting signal sequence which results in a premature stop codon. This is the first documented case of a molecular defect in pyruvate dehydrogenase protein X.     

Structural organization of virulence-associated plasmids of Yersinia pestis

The complete nucleotide sequence and gene organization of the three virulence plasmids from Yersinia pestis KIM5 were determined. Plasmid pPCP1 (9,610 bp) has a GC content of 45.3% and encodes two previously known virulence factors, an associated protein, and a single copy of IS100. Plasmid pCD1 (70,504 bp) has a GC content of 44.8%. It is known to encode a number of essential virulence determinants, regulatory functions, and a multiprotein secretory system comprising the low-calcium response stimulation that is shared with the other two Yersinia species pathogenic for humans (Y. pseudotuberculosis and Y. enterocolitica). A new pseudogene, which occurs as an intact gene in the Y. enterocolitica and Y. pseudotuberculosis-derived analogues, was found in pCD1. It corresponds to that encoding the lipoprotein YlpA. Several intact and partial insertion sequences and/or transposons were also found in pCD1, as well as six putative structural genes with high homology to proteins of unknown function in other yersiniae. The sequences of the genes involved in the replication of pCD1 are highly homologous to those of the cognate plasmids in Y. pseudotuberculosis and Y. enterocolitica, but their localization within the plasmid differs markedly from those of the latter. Plasmid pMT1 (100,984 bp) has a GC content of 50.2%. It possesses two copies of IS100, which are located 25 kb apart and in opposite orientations. Adjacent to one of these IS100 inserts is a partial copy of IS285. A single copy of an IS200-like element (recently named IS1541) was also located in pMT1. In addition to 5 previously described genes, such as murine toxin, capsule antigen, capsule anchoring protein, etc., 30 homologues to genes of several bacterial species were found in this plasmid, and another 44 open reading frames without homology to any known or hypothetical protein in the databases were predicted.