Showing papers by "Stephen J. O'Brien published in 1988"

Interactive influence of infectious disease and genetic diversity in natural populations.

Abstract: The importance of infectious disease in the survival and adaptation of animal populations is rapidly becoming apparent. Throughout evolution, animal species have been continually afflicted with devastating disease outbreaks which have influenced the demographic and genetic status of the populations. Some general population consequences of such epidemics include selection for disease resistance, the occasional alteration of host gene frequencies by a genetic ‘founder effect' after an outbreak, and genetic adaptation of parasites to abrogate host defense mechanisms. A wide variety of host cellular genes which are polymorphic within species and which confer a regulatory effect on the outcome of infectious diseases has recently been discovered. The critical importance of maintaining genetic diversity with respect to disease defense genes in natural populations is indicated by certain populations which have reduced genetic variability and apparent increased vulnerability to infectious disease.

The GLI-Kruppel Family of Human Genes

Abstract: Previous characterization of GLI, a gene found to be amplified and expressed in a subset of human brain tumors, revealed the presence of five tandem zinc fingers related to those of Kruppel (Kr), a Drosophila segmentation gene of the gap class. We have used the GLI cDNA as a molecular probe to isolate related sequences from the human genome. Partial characterization of six related loci, including sequence determination, expression studies, and chromosome localization, revealed that each locus could encode a separate finger protein. The predicted proteins all had similar H-C links, i.e., a conserved stretch of 9 amino acids connecting the C-terminal histidine of one finger to the N-terminal cysteine of the next. On the basis of amino acid sequence and intron-exon organization, the genes could be placed into one of two subgroups: the GLI subgroup (with the consensus finger amino acid sequence [Y/F]XCX3GCX3[F/Y]X5LX2HX3-4H[T/S]GEKP) or the Kr subgroup (with the consensus finger amino acid sequence [Y/F]XCX2CX3FX5LX2HXRXHTGEKP). Unlike GLI or Kr, most of the newly isolated genes were expressed in many adult tissues. The predicted proteins probably control the expression of other genes and, by analogy with Kr and GLI, may be important in human development, tissue-specific differentiation, or neoplasia.

Shoulder arthroscopy with the patient in the beach-chair position

Abstract: We evaluated the use of the beach-chair, or sitting, position for arthroscopic shoulder surgery in 50 consecutive patients. Routine arthroscopy, arthroscopic subacromial decompression, and arthroscopic shoulder stabilizations were performed, with no complications. The advantages of this position include ease of setup, lack of brachial plexus strain because no traction is used, excellent intraarticular visualization for all types of arthroscopic shoulder procedures, and ease of conversion to the open approach if needed. The positioning technique is described.

Molecular cloning and chromosomal localization of the human T-cell receptor zeta chain: distinction from the molecular CD3 complex.

Abstract: The T-cell antigen receptor (TCR) is a multisubunit receptor complex specific to T cells subserving both antigen recognition and signal transduction functions. The zeta chain of the TCR is a component of all surface receptor complexes. This chain was first identified in murine T cells by virtue of the fact that it coimmunoprecipitates with the TCR complex using antibodies directed against either the clone-specific subunits or invariant CD3 subunits of the receptor. Recently, we have isolated a cDNA encoding the murine zeta. Using this as a probe, we have now isolated cDNAs encoding the human zeta. Sequence analysis of cDNAs encoding human and murine zeta reveals that it is a highly conserved protein. In addition to amino acid homology, there is remarkable interspecies conservation in the nucleotide sequence of the 5' and 3' untranslated regions of the zeta mRNA. The previously characterized invariant delta, epsilon, and gamma chains of the TCR, referred to as the CD3 complex, share significant sequence and structural homology with each other and are all located within 300 kilobases of each other on human chromosome 11 (11q23). zeta has no sequence similarity to the CD3 chains and the localization of the human zeta gene to the centromeric region of chromosome 1 underscores the fact that it is a distinct genetic component of the TCR.

Developmental competence of domestic cat follicular oocytes after fertilization in vitro.

Abstract: Empirical evaluation of variables affecting oocyte collection, in vitro fertilization, and embryo transfer resulted in establishing a successful procedure for the artificial production of offspring in the domestic cat. Female cats were treated with pregnant mare's serum gonadotropin (PMSG, 150 IU) followed 72 or 80 h later with 100 or 200 IU human chorionic gonadotropin (hCG). After laparoscopic collection, follicular oocytes were inseminated in vitro with ejaculated, processed spermatozoa, cultured (37 degrees C, 5% CO2), and then examined for evidence of fertilization. Two- to 4-cell stage embryos were transferred to the oviducts of oocyte donors. Oocyte donor cats and naturally mated controls also were subjected to sequential laparoscopic examinations and blood sampling to assess corpora lutea (CL) function. At 24-30 h of culture, fewer (p less than 0.001) degenerate oocytes were observed in cats receiving 100 IU hCG (8.2%) compared to those receiving 200 IU (20.6%), regardless of the PMSG-hCG interval. Overall fertilization (48.1%) and cleavage (45.2%, at 30 h post-insemination) rates were greatest following an 80-h PMSG-hCG interval combined with the 100 IU hCG dose. Five of the 6 cats receiving 6 to 18 embryos became pregnant and produced from 1 to 4 kittens/litter. Gonadotropin-treated females subjected to follicular aspiration produced morphologically normal CL and circulating progesterone patterns that were qualitatively similar (p greater than 0.05) to control cats. These data indicate that domestic cat follicular oocytes are capable of fertilization in vitro, but success is dependent on both the timing and dose of the hCG stimulus. Follicles subjected to aspiration appear capable of forming normal, functional CL and the birth of live young after embryo transfer unequivocally demonstrates, for the first time, the developmental competence of in vitro-fertilized carnivore oocytes.

Mammalian Genome Organization: An Evolutionary View

Abstract: Article de synthese sur la carte genetique comparee des mammiferes, les genes homologues; implications phylogenetiques et evolution moleculaire

Biological and Pathological Consequences of Feline Infectious Peritonitis Virus Infection in the Cheetah

Abstract: An epizootic of feline infectious peritonitis in a captive cheetah population during 1982-1983 served to focus attention on the susceptibility of the cheetah (Acinoyx jubatus) to infectious disease. Subsequent observations based upon seroepidemiological surveys and electron microscopy of fecal material verified that cheetahs were indeed capable of being infected by coronaviruses, which were antigenically related to coronaviruses affecting domestic cats, i.e. feline infectious peritonitis virus/feline enteric coronavirus. Coincident with the apparent increased susceptibility of the cheetah to infectious diseases, were observations that the cheetah was genetically unusual insofar as large amounts of enzyme-encoding loci were monomorphic, and that unrelated cheetahs were capable of accepting allogenic skin grafts. These data provided the basis for a hypothesis that the cheetah, through intensive inbreeding, had become more susceptible to viral infections as a result of genetic homogeneity.

The kappa-deleting element. Germline and rearranged, duplicated and dispersed forms

Abstract: Human light chain genes are used in a kappa before lambda order. Accompanying this hierarchy is the rearrangement of a kappa-deleting element (Kde) which eliminates the kappa locus before lambda gene rearrangement. In approximately 60% of rearrangements the Kde recombines at a conserved heptamer within the J kappa-C kappa intron. We demonstrated that aberrant V/J rearrangements possessing apparent "N" nucleotides existed 5' to the J kappa-Kde rearrangements. This suggests that the Kde may selectively eliminate nonfunctional V/J alleles. A kappa-producing cell that displayed the unusual finding of lambda gene rearrangement demonstrated a rearranged Kde. This rearrangement was a V kappa/Kde recombination and the heptamer-11 bp spacer-nonamer flanking the V kappa is the target site of the Kde 40% of the time. The mouse possesses a counterpart to the Kde (recombining sequence [RS]) and the highly conserved regions surround the heptamer-spacer-nonamer signals. No complete protein product was predicted from the germline Kde near its break-point and no consistent fusion product was predicted from either the V/Kde or V/J-Kde rearrangements. A distal portion of the Kde is duplicated and is present at 2q11 as well as 2p11. The evolutionary conservation of the kappa-elimination event, the duplication and maintenance of the Kde indicates that it has a function. A portion of the Kde may still prove to encode a trans-acting factor that directly affects lambda rearrangement. A certain role for the Kde is its site-specific rearrangement, which destroys ineffective kappa genes and sets the stage for lambda gene utilization.

Molecular characterization and genetic mapping of class I and class II MHC genes of the domestic cat.

Abstract: The major histocompatibility complex (MHC) of the domestic cat has been poorly characterized to date, primarily because of numerous difficulties in the preparation of allotypic sera. We present here a comparative analysis of class I and class II genes in domestic cat populations using molecular probes of the MHC from man and mouse. The cat possesses a minimum of 20 class I loci and 5 class II genes per haploid genome. Class I genes of the domestic cat expressed limited restriction fragment length polymorphism. The average percent difference of the size of DNA fragments between individual cats was 9.0 %, a value five times lower than the value for mice, but comparable to the human DNA polymorphism level. Class I and class II genes were both genetically mapped to feline chromosome B2 using a panel of rodent x cat somatic cell hybrids. Since feline chromosome B2 is syntenically homologous to human chromosome 6 and mouse chromosome 17, these results affirm the linkage conservation of the MHC-containing linkage group in the three mammalian orders.

Chromosomal localization of satellite DNA sequences among 22 species of felids and canids (Carnivora).

Abstract: In situ hybridization was carried out using cloned satellite DNAs from the domestic cat and domestic dog as probes to metaphase chromosomes from 12 species of felids and 10 species of canids. Autoradiographic silver grains along metaphase chromosomes were counted and analyzed with regard to the mean number of grains per cell in each species, their chromosomal location, and their presence or absence on specific autosomes or sex chromosomes, where known. Among the felids and canids there was a 7.6- and 8.9-fold statistically significant difference, respectively, in the mean number of grains per cell between the species having the minimum and maximum values. Among the felids, most grains occurred on the telomeres of D- and E-group chromosomes, although departures from this general pattern also occurred. For example, the Asian golden cat and the Bornean bay cat showed substantial labeling at the centromeric region of chromosome A1, and a number of species showed some labeling at the short-arm telomeres of B-group chromosomes. Among the canids, about 90% of all grains were located at autosomal centromeres, and grains were absent from the sex chromosomes. Grains are usually distributed at chromosomal locations that stain C-band positive; however, certain C-band-positive regions without grains probably do not contain the particular satellites studied here.

Quantitative Cladistic Analyses of Chromosomal Banding Data Among Species in Three Orders of Mammals: Hominoid Primates, Felids and Arvicolid Rodents

Abstract: Over the past two decades a number of technical advances have been made which have improved the resolving power of differential chromosome staining procedures. For example, Q-banding (Caspersson, et al., 1970), G-banding (Seabright, 1971), and R- banding (Dutrillaux and Lejeune, 1971) all produce longitudinal chromosomal differentiation, enabling the identification of homologous elements both within and between species. C-banding provides determination of the amount and location of constitutive heterochromatin (Sumner, 1972), whereas a number of fluorochromes, when used in conjunction with the appropriate counterstain, produce regional banding patterns or highlight specific heterochromatic regions (Schweizer, 1981). Staining with silver nitrate has been shown to identify the chromosomal locations of transcriptionally active 18S + 28S ribosomal genes (rDNA) (Bloom and Goodpasture, 1976). Primate chromosomes have been shown to stain differentially against a rodent background in somatic cell hybrids using the alkaline Giemsa (G-ll) staining procedure (Bobrow and Cross, 1974). Incorporation of tritiated thymidine or bromodeoxyuridine (BrdU) followed by the appropriate staining allows for the visualization of sister chromatic exchanges (Perry and Wolff, 1974)

Chromosomal localization and racial distribution of the polymorphic human dihydrofolate reductase pseudogene (DHFRP1).

Abstract: The human dihydrofolate reductase (DHFR) gene family comprises one functional gene and at least four intronless processed pseudogenes. The functional DHFR gene is on chromosome 5, and DHFRP4 is on chromosome 3. Using in situ hybridization, we have now localized the functional DHFR gene to the region q11.1-q13.3 on chromosome 5. By genomic DNA analysis of a panel of human X rodent somatic-cell hybrids, we determined the chromosomal assignment of the DHFRP1 pseudogene to chromosome 18 and that of the DHFRP2 pseudogene to chromosome 6. The DHFRP1 pseudogene exhibits a novel form of polymorphism in humans in that it is present in the DNA of some individuals and absent in that of others. We investigated the racial distribution of this pseudogene in five racial groups. The allelic frequency as defined by analysis of 180 chromosomes was found to be 94% in Mediterraneans, 77% in Asian Indians, 67% in Chinese, 57% in Southeast Asians, and 32% in American blacks. These data suggest that the transposition of this "perfect" pseudogene occurred prior to the inception of the human racial groups.

Evolution of heterochromatin-associated satellite DNA loci in felids and canids (Carnivora).

Abstract: Cloned satellite DNAs that hybridize primarily to C-band-positive regions of felid and canid chromosomes were used to probe the organization of satellite families in the genomes of 16 species of felids and 15 species of canids. Southern-blot and quantitative dot-blot experiments demonstrated that satellite families within the great cats (panthera lineage) vary considerably in regard to amount and/or sequence mismatch and vary some what in regard to restriction patterns. Satellite families within the canids appeared to be more uniform in regard to both amount/ sequence and restriction patterns, although some canid species did differ significantly from the consensus in both respects. Even though intrafamilial satellite restriction patterns were generally similar, every species could be shown to have a unique, characteristic pattern.

The human erg gene maps to chromosome 21, band q22: relationship to the 8; 21 translocation of acute myelogenous leukemia.

Abstract: There is accumulating evidence to support that genes on chromosome 21 play an important role in the development of pathologies associated with leukemia, Down's syndrome, and Alzheimer's disease. We have previously described erg, a human gene related to the ets oncogene. In this study, we have regionally assigned the erg gene to chromosome 21q22.3 by using somatic cell hybrids and in situ hybridization analysis. In light of this chromosome assignment, the relationship of erg to the 21q translocation breakpoint characteristic of acute myelogenous leukemia (AML) was considered. By using a DNA probe that is specific for the erg gene, a panel of rodent-human cell hybrids was analyzed by the Southern technique to study specific chromosome translocations occurring in acute myeloblastic leukemia. The erg gene was found to translocate from chromosome 21 to 8 in the t(8; 21) (q22; q22), a non-random translocation found in patients with acute myelogenous leukemia of the subgroup M2 (AML-M2). The localization of the erg gene to chromosome 21q22 raises the possibility that this gene may be involved in the pathogenesis of AML-M2.

Germline and Rearranged, Duplicated and Dispersed Forms

Abstract: In this study, we addressremaining questions concerning the role of thehuman Kde . In up to 40% of instances the Kde rearranges upstream to the JK region and eliminates JK as well as EK and CK. We wished to determine the identity of this upstream target site and in particular to ask if it might be a VK region .