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The sperm surface fertilin complex was first described in the guinea pig where it was found as a heterodimer of alpha and beta subunits, both of which were proposed to play a role in sperm-oolemma recognition and plasma membrane fusion during fertilisation. Whilst the beta subunit is apparently testis-specific, the finding of low levels of fertilin alpha in nonreproductive tissues has cast some doubt on a unique role in fertilisation. Moreover, the absence of a functional fertilin alpha gene in the human would imply that this gene product is not absolutely essential for fertilisation, although it could play a facilitatory role. We now describe the organisation and sequence of the fertilin alpha genes in a range of primates, including the great apes, and find that the gorilla gene, like that of the human, is non-functional.
Mol Reprod Dev 1998 Sep
PMID:Sequence analysis of a variety of primate fertilin alpha genes: evidence for non-functional genes in the gorilla and man. 971 22

Receptor editing is a process consisting of replacement of pre-existing H or L chain rearrangements by secondary rearrangements. This process could serve to remove autoreactive specificities, or to rescue loci with non-functional rearrangements. At the H chain locus, functional replacement of a V(H)DJ(H) rearrangement by an upstream V(H) requires the presence of an embedded RSS located in reverse orientation near the 3' end of the V(H) segment. Although most V(H) genes contain a fairly consensus embedded heptamer, the nonamer sequence bears little resemblance to the consensus RSS nonamer. Therefore, the physiologic rate of H chain editing by V(H) replacement is yet unknown. In this study, we used both conventional and sensitive competition recombination substrate assays to determine the recombination frequency of the V(H)1X embedded RSS relative to consensus and non-consensus RSS's. Results show no detectable recombination of the 81X embedded RSS in a recombination substrate, and the competition substrate allows us to estimate that the 81X embedded RSS recombines at least 1300 fold less often than a consensus RSS. This suggests that V(H) gene replacement is not responsible for the decrease in representation of the 81X gene during differentiation. Furthermore, since the sequence of the embedded RSS is very similar for many V(H) genes, our results suggest that receptor editing of the H chain will be an infrequent event, leaving L chain editing as the main mode of avoiding autoreactive specificities in vivo.
Mol Immunol 1998 Mar
PMID:V(H) replacement is unlikely to contribute significantly to receptor editing due to an ineffectual embedded recombination signal sequence. 973 38

In Escherichia coli, precursor proteins are targeted to the membrane-bound translocase by the cytosolic chaperone SecB. SecB binds to the extreme carboxy-terminus of the SecA ATPase translocase subunit, and this interaction is promoted by preproteins. The mutant SecB proteins, L75Q and E77K, which interfere with preprotein translocation in vivo, are unable to stimulate in vitro translocation. Both mutants bind proOmpA but fail to support the SecA-dependent membrane binding of proOmpA because of a marked reduction in their binding affinities for SecA. The stimulatory effect of preproteins on the interaction between SecB and SecA exclusively involves the signal sequence domain of the preprotein, as it can be mimicked by a synthetic signal peptide and is not observed with a mutant preprotein (delta8proOmpA) bearing a non-functional signal sequence. Delta8proOmpA is not translocated across wild-type membranes, but the translocation defect is suppressed in inner membrane vesicles derived from a prIA4 strain. SecB reduces the translocation of delta8proOmpA into these vesicles and almost completely prevents translocation when, in addition, the SecB binding site on SecA is removed. These data demonstrate that efficient targeting of preproteins by SecB requires both a functional signal sequence and a SecB binding domain on SecA. It is concluded that the SecB-SecA interaction is needed to dissociate the mature preprotein domain from SecB and that binding of the signal sequence domain to SecA is required to ensure efficient transfer of the preprotein to the translocase.
Mol Microbiol 1998 Sep
PMID:Preprotein transfer to the Escherichia coli translocase requires the co-operative binding of SecB and the signal sequence to SecA. 976 86

The biosynthesis of estrogens is catalyzed by an enzyme known as aromatase (aromatase cytochrome P450; P450 arom; the product of the CYP19 gene). In recent years a number of patients have been described suffering from aromatase deficiency due to mutations in the CYP19 gene, resulting in the synthesis of a non-functional gene product and a resulting failure to synthesize estrogens. Males with this condition have sustained linear growth into adulthood resulting from failure of epiphyseal closure. Osteopenia and reduced bone mineral density and bone age are also characteristic. Lack of circulating estrogens is accompanied by elevated testosterone and gonadotropins. One of the men had macroorchidism with testicular volumes in excess of 25 ml (Morishima et al. J. Clin. Endocrinol. Metab. 80, 3689, 1995). Semen analysis was not performed on this patient, but it is of note that the one patient described with estrogen insensitivity due to a mutation in the estrogen receptor had a normal sperm count, although motility was decreased (Smith et al., New England J. Med. 331. 1056, 1994). By contrast, the other man with aromatase deficiency had testicular volumes of only 8 ml per testes, and was infertile. Sperm analysis revealed a count of 1 million/ml with 100% immotile sperm (Carani et al. New England J. Med. 337, 91, 1997). However, his clinical picture is confused by the fact that another male sibling has azoospermia, but has no CYP19 mutation, suggesting that the infertility problem may be due to a second genetic condition in this consanguineous family. Recently mice have been generated in which the aromatase (CYP19) gene and the gene encoding the estrogen receptor-alpha have been inactivated by targeted disruption (ArKO and ERKO mice, respectively). Male ERKO mice are infertile with atrophy of the testes and seminiferous tubule dysmorphogenesis resulting in decreased spermatogenesis and inacive sperm. By contrast the ArKO mice are initially fertile and sire litters of normal size ad frequency, however with advancing age the number of litters sired decreases relative to those of wild type litter ates. In contrast to the ERKO mice, light microscopic analysis of the testes of the ArKO mice reveals no gross morphological abnormalties and the testes are of normal size. Following recent observations that the estrogen receptor-beta isoform is highly expressed in seminiferous epthelium, spermatids and spermatocytes, it is conceivable that the relatively high levels of estrogens present in the ERKO mice can act through the ER-beta to cause infertility by a direct action on the testes. In this context it is well known that administration of high levels of estrogen to men results in infertility. It is apparent that studies of human and mouse models with disruptions of aromatase and the estrogen receptor have as yet failed to clarify the role of estrogens in male fertility and testicular function. Development of an ER-beta knockout mouse, or else a double, or even triple, knockout model, may be required in order to resolve these issues.
Mol Cell Endocrinol 1998 Oct 25
PMID:Genetic mutations resulting in estrogen insufficiency in the male. 992 99

The Escherichia coli sigma 32 transcriptional regulator has been shown to be degraded both in vivo and in vitro by the FtsH (HflB) protease, a member of the AAA protein family. In our attempts to study this process in detail, we found that two sigma 32 mutants lacking 15-20 C-terminal amino acids had substantially increased half-lives in vivo or in vitro, compared with wild-type sigma 32. A truncated version of sigma 32, sigma 32 C delta, was purified to homogeneity and shown to be resistant to FtsH-dependent degradation in vitro, suggesting that FtsH initiates sigma 32 degradation from its extreme C-terminal region. Purified sigma 32 C delta interacted with the DnaK and DnaJ chaperone proteins in a fashion similar to that of wild-type sigma 32. However, in contrast to wild-type sigma 32, sigma 32 C delta was largely deficient in its in vivo and in vitro interaction with core RNA polymerase. As a consequence, the truncated sigma 32 protein was completely non-functional in vivo, even when overproduced. Furthermore, it is shown that wild-type sigma 32 is protected from degradation by FtsH when complexed to the RNA polymerase core, but sensitive to proteolysis when in complex with the DnaK chaperone machine. Our results are in agreement with the proposal that the capacity of the DnaK chaperone machine to autoregulate its own synthesis negatively is simply the result of its ability to sequester sigma 32 from RNA polymerase, thus making it accessible to degradation by the FtsH protease.
Mol Microbiol 1999 Jan
PMID:On the mechanism of FtsH-dependent degradation of the sigma 32 transcriptional regulator of Escherichia coli and the role of the Dnak chaperone machine. 998 18

Transcription of the polyubiquitin gene UBI4 of Saccharomyces cerevisiae is strongly induced by a variety of environmental stresses, such as heat shock, nutrient depletion and exposure to DNA-damaging agents. This transcriptional response of UBI4 is likely to be the primary mechanism for increasing the pool of ubiquitin for degradation of stress-damaged proteins. Deletion and promoter fusion studies of the 5' regulatory sequences indicated that two different elements, heat shock elements (HSEs) and stress response element (STREs), contributed independently to heat shock regulation of the UBI4 gene. In the absence of HSEs, STRE sequences localized to the intervals -264 to -238 and -215 to -183 were needed for stress control of transcription after heat shock. Site-directed mutagenesis of the STRE (AG4) at -252 to -248 abolished heat shock induction of UBI4 transcription. Northern analysis demonstrated that cells containing either a temperature-sensitive HSF or non-functional Msn2p/Msn4p transcription factors induced high levels of UBI4 transcripts after heat shock. In cells deficient in both heat stress pathways, heat-induced UBI4 transcript levels were considerably lower but not abolished, suggesting a role for another factor(s) in stress control of its expression.
Mol Microbiol 1999 Feb
PMID:Multiple independent regulatory pathways control UBI4 expression after heat shock in Saccharomyces cerevisiae. 1004 26

p53 is altered in about 50 % of cancers. Most of the p53 mutants have lost the wild-type tumour suppressor activity but show oncogenic properties. The majority of the p53 alterations are missense mutations of residues located in its DNA binding domain (DBD). Only a few mutations concern residues in its tetramerisation domain (TD). However, the study of mutant proteins identified in tumors that do not form tetramers has shown that they have lost the wild-type activity like most of the p53 DBD mutants. Here, we show that two of such mutant proteins, Arg342Pro and Leu344Pro are not dominant negative and do not stimulate the expression of a reporter gene under the control of the multi-drug resistance gene-1 (MDR-1). This suggests that to be oncogenic, p53 mutants need to form tetramers. Accordingly, the dominant negative effect and the ability of a tetrameric mutant protein, Asp281Gly, to stimulate the MDR-1 promoter are abolished when its TD is rendered non-functional by the mutation of leucine 344 to a proline residue. These results suggest that mutations in the TD, are less selected in tumors than mutations in the DBD because they do not lead to oncogenic proteins.
J Mol Biol 1999 Mar 12
PMID:p53 mutants without a functional tetramerisation domain are not oncogenic. 1006 94

DNA replication fork arrest during the termination phase of chromosome replication in Bacillus subtilis is brought about by the replication terminator protein (RTP) bound to specific DNA terminator sequences (Ter sites) distributed throughout the terminus region. An attractive suggestion by others was that crucial to the functioning of the RTP-Ter complex is a specific interaction between RTP positioned on the DNA and the helicase associated with the approaching replication fork. In support of this was the behaviour of two site-directed mutants of RTP. They appeared to bind Ter DNA normally but were ineffective in fork arrest as ascertained by in vitro Escherichia coli DnaB helicase and replication assays. We describe here a system for assessing the fork-arrest behaviour of RTP mutants in a bona fide in vivo assay in B. subtilis. One of the previously studied mutants, RTP.Y33N, was non-functional in fork arrest in vivo, as predicted. But through extensive analyses, this RTP mutant was shown to be severely defective in binding to Ter DNA, contrary to expectation. Taken in conjunction with recent findings on the other mutant (RTP.E30K), it is concluded that there is as yet no substantive evidence from the behaviour of RTP mutants to support the RTP-helicase interaction model for fork arrest. In an extension of the present work on RTP.Y33N, we determined the dissociation rates of complexes formed by wild-type (wt) RTP and another RTP mutant with various terminator sequences. The functional wtRTP-TerI complex was quite stable (half-life of 182 minutes), reminiscent of the great stability of the E. coli Tus-Ter complex. More significant were the exceptional stabilities of complexes comprising wtRTP and an RTP double-mutant (E39K.R42Q) bound to some particular terminator sequences. From the measurement of in vivo fork-arrest activities of the various complexes, it is concluded that the stability (half-life) of the whole RTP-Ter complex is not the overriding determinant of arrest, and that the RTP-Ter complex must be actively disrupted, or RTP removed, by the action of the approaching replication fork.
J Mol Biol 1999 Mar 12
PMID:Site-directed mutants of RTP of Bacillus subtilis and the mechanism of replication fork arrest. 1006

Paroxysmal nocturnal hemoglobinuria (PNH) is an acquired clonal blood disorder characterized by chronic hemolysis with hemoglobinuria and venous thrombosis. PNH clones arise through somatic mutations in the X-linked PIG-A gene that occur in early hematopoietic stem cells. Here we report 28 previously undescribed mutations; we confirm that somatic mutations are spread throughout the entire coding region of the PIG-A gene and that the majority are frameshift mutations producing a non-functional PIG-A protein (PIG-A(o)). In addition, we found 1 total deletion of the PIG-A gene, and 2 short nucleotide duplications. Although mutations are spread throughout the entire coding region, we observe more missense mutations in exon 2 than in the other exons. The increasing number of identified missense PIG-A mutations should help elucidate structure-function relationships in the PIG-A protein.
Blood Cells Mol Dis 1998 Sep
PMID:The spectrum of somatic mutations in the PIG-A gene in paroxysmal nocturnal hemoglobinuria includes large deletions and small duplications. 1008 94

Random amplification of polymorphic DNA (RAPD) was used to analyse genomic DNA from virgin females and males of Brugia malayi, with a view to identifying sex-specific differences predicted by an XX/XY system of chromosomal sex determination. A product of 2338 bp, amplified with the arbitrary primer 5' GTTGCGATCC 3', was obtained exclusively from males. Primers based on the sequence of this product amplified a DNA fragment of the expected size from each of two independent isolates of B. malayi (from Malaysia and Indonesia) by PCR. No reaction product was obtained from the closely related species Brugia pahangi. In a genetic cross between B. malayi males and B. pahangi females, F1 hybrid microfilariae were PCR-positive, indicating that the locus is paternally-inherited. Southern blotting demonstrated that the target sequence resides in the high molecular weight fraction of genomic DNA, confirming that it is of chromosomal, rather than mitochondrial, origin. Sequencing of the locus revealed significant similarity with members of a family of reverse transcriptase-like genes in Caenorhabditis elegans. In-frame stops indicate that the gene is non-functional, but multiple bands of hybridisation in Southern blots suggest that the RT sequence may be the relic of a transposable element. Multiple repeats of the dinucleotide AT occurred in another region of the sequence. These varied in number between the two isolates of B. malayi in the manner of a microsatellite, surprisingly the first to be described from the B. malayi genome. Because of its association with the Y chromosome, we have given the locus the acronym TOY (Tag On Y). Identification of this chromosome-specific marker confirms the XX/XY heterogametic karyotype in B. malayi and opens the way to elucidation of the role of Y in sex determination.
Mol Biochem Parasitol 1999 Mar 15
PMID:Identification of a molecular marker for the Y chromosome of Brugia malayi. 1021 19

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