Unstable transmission of the RS447 human megasatellite tandem repetitive sequence that contains the <Emphasis Type="Italic">USP17</Emphasis> deubiquitinating enzyme gene

The RS447 megasatellite DNA, which maps to human chromosome 4p16.1, is a highly polymorphic conserved tandem repetitive sequence containing a functional deubiquitinating enzyme gene, USP17. To characterize the hypervariability seen in RS447 fully, we have conducted a pedigree analysis of RS447 transmission by high-resolution pulsed-field gel electrophoresis. We have identified 44 distinct alleles in 74 unrelated chromosomes containing 20-103 copies of the 4.7-kb RS447 unit. Five of 60 parent-to-offspring transmissions clearly show changes in copy number, indicating a high frequency (approximately 8.3%) of meiotic instability. Evidence for somatic mosaicism has also been observed. Searches of the database have revealed the presence of minor RS447 sequences mapping to chromosome 8p23, raising the possibility of a rearrangement or transposition of RS447 within the human genome. These results suggest that the unstable nature of RS447 megasatellite DNA gives rise to its hypervariability and may contribute to the structural dynamics of this repetitive DNA in the genome.     

Characterisation of a novel repetitive DNA sequence from Mycobacterium bovis

We report characterisation of three copies of a novel repeat sequence isolated from a Mycobacterium bovis genomic library. The repeat occurs within open reading frames, potentially encoding a conserved tandem array of a pentapeptide sequence with the consensus X-Gly-Asn-X-Gly. The tandem array is present up to five times in M. bovis and it is proposed that they may occur in a family of genes expressing functionally related proteins. We postulate that these proteins may play a role in binding of M. bovis to host cell receptors.     

Identification of a human cDNA sequence which encodes a novel membrane-associated protein containing a zinc metalloprotease motif.

We report the cloning and characterization of a human cDNA predicted to encode a novel hydrophobic protein containing four transmembrane domains and a zinc metalloprotease motif, HEXXH, between the third and fourth transmembrane domains, and have named the molecule metalloprotease-related protein-1 (MPRP-1). The MPRP-1 gene was localized to chromosome 1-p32.3 by radiation hybrid mapping, and Northern blot analysis revealed expression in many organs, with strong expression in the heart, skeletal muscle, kidney and liver. Immunohistochemical analyisis showed that MPRP-1 was localized in the endoplasmic reticulum (ER), and not in the Golgi compartment. Fragments of DNA encoding a segment homologous to the HEXXH motif of MPRP-1 are widely found in bacteria, yeast, plants, and animals. These results suggest that the MPRP-1 may have highly conserved functions, such as in intracellular proteolytic processing in the ER.     

Primate evolution of a dispersed human repetitive DNA sequence

A dispersed middle repetitive DNA sequence isolated originally from human chromosome 12 did not show homology with rodent DNA under standard conditions of Southern DNA blot analysis. The evolutionary relationship of this human repetitive DNA to that of other primates was investigated using three hybridization methods: DNA dot blot, Southern DNA blot analysis, and chromosome in situ hybridization. Homology with the human repetitive DNA was found throughout the suborder Anthropoidea, in fourteen ape and New and Old World monkey species. In addition, the human pattern of hybridization to noncentromeric regions of all chromosomes was seen. No hybridization by any of the three techniques was found in five species of the suborder Prosimii. The phenomenon of marked differences in sequence homology and copy number of dispersed repetitive DNA from closely related species has been observed in protozoans (Plasmodia), Drosophila, sea urchins, mice and the great apes (Hominoidea). We report here a similar phenomenon that may have occurred at an early stage in primate evolution.     

The interaction of cisplatin with a human telomeric DNA sequence containing seventeen tandem repeats

The anti-tumour drug, cisplatin, preferentially forms adducts at G-rich DNA sequences. Telomeres are found at the ends of chromosomes and, in humans, contain the repeated DNA sequence (GGGTTA)_n that is expected to be targeted by cisplatin. Using a plasmid clone with 17 tandem telomeric repeats, (GGGTTA)₁₇, the DNA sequence specificity of cisplatin was investigated utilising the linear amplification procedure that pin-pointed the precise sites of cisplatin adduct formation. This procedure used a fluorescently labelled primer and capillary electrophoresis with laser-induced fluorescence detection to determine the DNA sequence specificity of cisplatin. This technique provided a very accurate analysis of cisplatin-DNA adduct formation in a long telomeric repeat DNA sequence. The DNA sequence specificity of cisplatin in a long telomeric tandem repeat has not been previously reported. The results indicated that the 3′-end of the G-rich strand of the telomeric repeat was preferentially damaged by cisplatin and this suggests that the telomeric DNA repeat has an unusual conformation.     

The carboxyl terminus of Dictyostelium discoideum protein 1I encodes a functional glycosyl-phosphatidylinositol signal sequence

The 1I gene is expressed in the prespore cells of culminating Dictyostelium discoideum. The open reading frame of 1I cDNA encodes a protein of 155 amino acids with hydrophobic segments at both its NH(2)- and COOH-termini that are indicative of a glycosyl-phosphatidylinositol (GPI)-anchored protein. A hexaHis-tagged form of 1I expressed in D. discoideum cells appeared on Western blot analysis as a doublet of 27 and 24 kDa, with a minor polypeptide of 22 kDa. None of the polypeptides were released from the cell surface with bacterial phosphatidylinositol-specific phospholipase C, although all three were released upon nitrous acid treatment, indicating the presence of a phospholipase-resistant GPI anchor. Further evidence for the C-terminal sequence of 1I acting as a GPI attachment signal was obtained by replacing the GPI anchor signal sequence of porcine membrane dipeptidase with that from 1I. Two constructs of dipeptidase with the 1I GPI signal sequence were constructed, one of which included an additional six amino acids in the hydrophilic spacer. Both of the resultant constructs were targeted to the surface of COS cells and were GPI-anchored as shown by digestion with phospholipase C, indicating that the Dictyostelium GPI signal sequence is functional in mammalian cells. Site-specific antibodies recognising epitopes either side of the expected GPI anchor attachment site were used to determine the site of GPI anchor attachment in the constructs. These parallel approaches show that the C-terminal signal sequence of 1I can direct the addition of a GPI anchor.     

Chromosomal localization of a novel repetitive sequence in theChenopodium quinoa genome

In this study, a novel repetitive sequence pTaq10 was isolated from theTaq I digest of the genomic DNA of the pseudocerealChenopodium quinoa. Sequence analysis indicated that this 286-bp monomer is not homologous to any known retroelement sequence. FISH and Southern blot analysis showed that this sequence is characterized by an interspersed genomic organization. After FISH, hybridization signals were observed as small dots spread throughout all of the chromosomes. pTaq hybridization signals were excluded from 45S rRNA gene loci, but they partly overlapped with 5S rDNA loci. pTaq10 is not a species-specific sequence, as it was also detected inC. berlandieri.     

The mouse Gm853 gene encodes a novel enzyme: Leucine decarboxylase

Ornithine decarboxylase (ODC) is a key enzyme in the biosynthesis of polyamines. ODC-antizyme inhibitors (AZINs) are homologous proteins of ODC, devoid of enzymatic activity but acting as regulators of polyamine levels. The last paralogue gene recently incorporated into the ODC/AZINs family is the murine Gm853, which is located in the same chromosome as AZIN2, and whose biochemical function is still unknown. By means of transfection assays of HEK293T cells with a plasmid containing the coding region of Gm853, we show here that unlike ODC, GM853 was a stable protein that was not able to decarboxylate l-ornithine or l-lysine and that did not act as an antizyme inhibitor. However, GM853 showed leucine decarboxylase activity, an enzymatic activity never described in animal cells, and by acting on l-leucine (Km = 7.03 × 10^? 3 M) it produced isopentylamine, an aliphatic monoamine with unknown function. The other physiological branched-chain amino acids, l-valine and l-isoleucine were poor substrates of the enzyme. Gm853 expression was mainly detected in the kidney, and as Odc, it was stimulated by testosterone. The conservation of Gm853 orthologues in different mammalian species, including primates, underlines the possible biological significance of this new enzyme. In this study, we describe for the first time a mammalian enzyme with leucine decarboxylase activity, therefore proposing that the gene Gm853 and its protein product should be named as leucine decarboxylase (Ldc, LDC).     

Ubiquitination of a novel deubiquitinating enzyme requires direct binding to von Hippel-Lindau tumor suppressor protein.

von Hippel-Lindau (VHL) disease is a hereditary cancer syndrome caused by germline mutations of the VHL gene. Recent studies suggest that VHL protein (pVHL) is a component of an E3 ubiquitin ligase, but the detailed biological function of pVHL remains to be determined. To further elucidate the biological functions of pVHL, we searched pVHL-interacting proteins using yeast two-hybrid screening. A novel protein named VHL-interacting deubiquitinating enzyme 1 (VDU1) was identified as being able to directly interact with pVHL in vitro and in vivo. We have determined the full-length cDNA of this enzyme, which includes two putative subtypes. Type I consists of 942 amino acids, and type II consists of 911 amino acids with predicted molecular masses of 107 and 103 kDa, respectively. We have also cloned a mouse homologue of this enzyme. Sequence analysis reveals that this protein is conserved between human and mouse and contains the signature motifs of the ubiquitin-specific processing protease family. Enzymatic function studies demonstrate its deubiquitinating activity. We have determined that the VDU1-interacting region in pVHL is located in its beta-domain, and several naturally occurring mutations located in this domain disrupt the interaction between pVHL and VDU1 protein. Co-immunoprecipitation demonstrates that VDU1 can be recruited into the pVHL-elongin C-elongin B complex. Finally, we demonstrate that VDU1 is able to be ubiquitinated via a pVHL-dependent pathway for proteasomal degradation, and VHL mutations that disrupt the interaction between VDU1 and pVHL abrogate the ubiquitination of VDU1. Our findings indicate that VDU1, a novel ubiquitin-specific processing protease, is a downstream target for ubiquitination and degradation by pVHL E3 ligase. Targeted degradation of VDU1 by pVHL could be crucial for regulating the ubiquitin-proteasome degradation pathway.     

Studies of a novel repetitive sequence family in the genome of mice

A new middle repetitive sequence is described in the mouse genome. It has been revealed with a recombinant clone isolated from a Mus musculus BamHI gene library constructed in pBR322 and containing an insertion of 1.73 kb. When digests of genomic DNA were subjected to Southern blot hybridization, using the 1.73-kb insert as probe, we obtained a light smear and discrete bands, indicating a dispersion in the mouse genome of this sequence. This 1.73-kb sequence seems to be a part of a greater repetitive sequence at least 6 kb in length. The sizes of the bands hybridizing with the 1.73-kb insert are similar when compared between different laboratory strains but differ remarkably between the two species M. musculus and Mus caroli. We have shown also a great variation in the copy number of the sequence studied between these two species. When rat DNA is probed with the 1.73-kb insert, no hybridization is observed. Subcloning of the 1.73-kb sequence in three fragments has pointed out that the reiteration was not homogeneous along the 1.73-kb sequence. The 1.73-kb clone was sequenced and compared with other interspersed repetitive sequences, previously described in the rodent genome, and no homology was found.     

The human kallikrein 10 promoter contains a functional retinoid response element

Human kallikrein 10 (hK10) protein is expressed in normal breast but is significantly downregulated in a majority of invasive breast cancers. Thus, understanding how hK10 expression is regulated is of substantial significance. In this study, we analyzed the promoter region of hK10 using a website software (TRANSFAC 3.0), which predicted three possible retinoic acid response elements (RAREs), RARE1 at -1041 (TGACCTCGTGATCC), RARE2 at -859 (TGACCTCCTATGA) and RARE3 at -765 (TGACCTCCTGTGA), each with a half-site of a canonical sequence (TGACCT; reverse complement AGGTCA). Using electrophoretic mobility shift assays and nucleotide competition analysis, as well as chromatin immunoprecipitation of the native hK10 promoter, we demonstrated specific binding of RXR only to RARE1. The functional importance of RARE in the hK10 promoter was demonstrated by retinoid induction of hk10 promoter-reporters; furthermore, mutation of RARE1 but not of RARE2 or RARE3 abolished the induction of the reporter. Finally, we demonstrated the induction of hK10 mRNA and protein expression upon retinoid treatment of cells. In view of the correlation of the downregulation of hK10 mRNA and protein with breast cancer progression, these findings suggest a potential approach to restore hK10 expression in cancer patients.     

Isolation and functional characterization of a novel rice constitutive promoter

Key message

A novel rice constitutive promoter (P _OsCon1 ) was isolated. The molecular mechanism of the promoter activity was investigated. P _OsCon1 could be used as an alternative constitutive promoter for crop transgenic engineering.

Abstract

Monocot constitutive promoter is an important resource for crop transgenic engineering. In this report, we isolated a novel promoter, Oscon1 promoter (P _OsCon1 ), from the 5′ upstream region of a constitutively expressed rice gene OsDHAR1. In P _OsCon1 ::GUS transgenic rice, we showed that P _OsCon1 had a broad expression spectrum in all tested tissues. The expression of the promoter was further analyzed in comparison with the previously characterized strong constitutive promoters. P _OsCon1 exhibited comparable activity to OsCc1, OsAct1 or ZmUbi promoters in most tissues, and more active than 35S promoter in roots, seeds, and calli. Further quantitative assays indicated that P _OsCon1 activity was not affected by developmental stages or by environmental factors. Further, 5′-deletions analysis indicated that the distinct regions might contribute to the strong expression of P _OsCon1 in different tissues. Overall, our results suggest that P _OsCon1 is a novel constitutive promoter, which could potentially use in transgenic crop development.