Nucleotide sequence analysis of 95 kb near the 3' end of the murine T-cell receptor alpha/delta chain locus: strategy and methodology.

The nucleotide sequence of a region at the 3' terminus of the murine T-cell receptor alpha/delta chain locus is presented. This region, which encodes the constant region genes for alpha and delta chain polypeptides and all 50 joining gene segments for the alpha chain polypeptide, spans 94,647 bp and includes more than 50 noncoding sequence elements important for T-cell receptor gene rearrangement and expression. DNA sequencing of this region included complete analysis of two cosmid clones and five additional restriction fragments using a random subcloning approach with various manual and automated sequencing strategies. The automated sequencing strategies hold considerable promise for future large-scale DNA sequencing efforts.     

Organization, structure and expression of murine interferon alpha genes.

Using a human interferon-alpha probe we have isolated recombinant phages containing murine interferon-alpha (Mu IFN-alpha) genes from a genomic library. One of these phages contained two complete Mu IFN-alpha genes and part of a third gene. The insert of a second phage held two IFN genes. This indicates that the Mu IFN-alpha genes are clustered in the genome as is the case for the analogous human genes. The nucleotide sequences of these 5 genes were determined. They show that the genes are all different, albeit highly homologous. The deduced amino acid sequences show that four of the five genes contain a putative glycosylation site. Three genes were transiently expressed in COS cells and they gave rise to protein products showing antiviral properties. The expression of the five Mu IFN-alpha genes and the Mu IFN-beta gene was studied in virus-induced mouse L cells. The individual mRNAs were visualized in a nuclease S1 experiment, using a specific probe for each gene. In RNA preparations from induced cells mRNAs for each of the five alpha genes and the beta gene were present. However, substantial differences in the amounts of the individual mRNAs were observed.     

Assessment of the nucleotide sequence variability in the bovine T-cell receptor alpha delta joining gene region

The sequence of 2,193 nucleotides from the bovine T-cell receptor alpha/delta joining gene region (TCRADJ) was determined and compared with the corresponding human and murine sequences. The identity was 75.3% for the comparison of the Bos taurus vs. the Homo sapiens sequence and 63.8% for the Bos taurus vs. the Mus musculus sequence. This comparison permitted the identification of the putatively functional elements within the bovine sequence. Direct sequencing of 2,110 nucleotides in nine animals revealed 12 variable sites. Estimates, based on direct sequencing in three Holstein Friesian animals, for the two measures of sequence variability, nucleotide polymorphism (u) and nucleotide diversity (p), were 0.00050 (60.00036) and 0.00077 (60.00056), respectively. The test statistic, Tajima's D, for the comparison of the two measures indicates that the difference between u and p is close to significance (P < 0.05), suggesting the possibility of selective forces acting on the studied genomic region. Allelic variation at 5 of the 12 variable sites was analysed in 359 animals (48 Anatolian Black, 56 Braunvieh, 115 Fleckvieh, 47 Holstein Friesian, 50 Simmental and 43 Pinzgauer) using the oligonucleotide ligation assay (OLA) in combination with the enzyme linked immunoabsorbant assay (ELISA). Nine unambiguous haplotypes could be derived based on animals with a maximum of one heterozygous site. Four to seven haplotypes were present in the different breeds. When taking into account the frequencies of the haplotypes in the different breeds, especially in Anatolian Black, an ancestral cattle population, we could establish the likely phylogenetic relationships of the haplotypes. Such haplotype trees are the basis for cladistic candidate gene analysis. Our study demonstrates that the systematic search of single nucleotide polymorphisms (SNPs) is useful for analysing all aspects of variability of a given genomic region.     

The outline structure of the T-cell alpha beta receptor.

From an analysis of the immunoglobulins of known structure we derive a list of 40 sites crucial for the conserved structure of the variable domains. We show that, with marginal exceptions, the sequences of the T-cell alpha beta receptors contain, at sites homologous to these 40, the same or very similar residues. Thus the V alpha-V beta dimer has a framework structure very close to that of the immunoglobulins. Further comparisons show that parts of the surface of the V alpha-V beta framework are hypervariable. They also show that the loops that form the antigen-binding site are similar in size to those commonly found in the immunoglobulins but have different conformations. Only limited sequence variations occur in the first loop of the antigen-binding site in both V alpha and V beta. This, and their geometrical arrangement, suggest that they mainly interact with the MHC proteins.     

State of the APC/C: Organization,function, and structure

The ubiquitin-proteasome protein degradation system is involved in many essential cellular processes including cell cycle regulation, cell differentiation, and the unfolded protein response. The anaphase-promoting complex/cyclosome (APC/C), an evolutionarily conserved E3 ubiquitin ligase, was discovered 15 years ago because of its pivotal role in cyclin degradation and mitotic progression. Since then, we have learned that the APC/C is a very large, complex E3 ligase composed of 13 subunits, yielding a molecular machine of approximately 1 MDa. The intricate regulation of the APC/C is mediated by the Cdc20 family of activators, pseudosubstrate inhibitors, protein kinases and phosphatases and the spindle assembly checkpoint. The large size, complexity, and dynamic nature of the APC/C represent significant obstacles toward high-resolution structural techniques; however, over the last decade, there have been a number of lower resolution APC/C structures determined using single particle electron microscopy. These structures, when combined with data generated from numerous genetic and biochemical studies, have begun to shed light on how APC/C activity is regulated. Here, we discuss the most recent developments in the APC/C field concerning structure, substrate recognition, and catalysis.     

Evolutionary comparison of murine and human delta T-cell receptor deleting elements

The gene for the T-cell antigen receptor (TCR) delta chain is a gene within a gene, being located in the TCR alpha chain gene in both mice and humans. The human delta locus is flanked by delta deleting elements that undergo preferential rearrangement in the thymus, resulting in deletion of internal delta coding segments. The mouse has conserved analogous elements, m delta Rec and m phi J alpha, which separate delta from alpha and undergo a m delta Rec/m phi J alpha rearrangement in polyclonal thymus. The 5' element, m delta Rec, which is an isolated heptamer-spacer-nonamer (h-s-n), lies within 200 kb of D delta 1, and displays two areas of nearly 80% homology to human delta Rec. The downstream element, m phi J alpha, lies 12.5 kb 3' to C delta, lacks the consensus amino acids for J alpha, and retains 80% homology to human phi J alpha. Cells from murine neonatal thymus show three prominent m delta Rec rearrangements consisting of the m delta Rec/m phi J alpha recombination, a delta Rec/D delta 1/D delta 2/J delta 1 recombination, and two hybrid recombinations. A consequence of the m delta Rec/M phi J alpha rearrangement is a deletion of internal D delta and J delta coding segments that would prevent their incorporation into alpha TCR products. The conservation of noncoding deleting elements flanking the delta TCR in mice and humans is similar to the evolutionarily preserved kappa deleting element of the B-cell lineage and argues for an important role in receptor utilization.     

Non-B right-handed DNA conformations of homopurine.homopyrimidine sequences in the murine immunoglobulin C alpha switch region

The switch region of IgA immunoglobulin in mice cloned into a recombinant plasmid contains a supercoil-dependent S1 nuclease hypersensitive site, indicative of a non-B-DNA secondary structure. This site maps to the (AGGAG)28 direct repeat (DR2) of the alpha switch region and appears at a negative superhelical density of greater than 0.02. Studies with P1 nuclease and bromoacetaldehyde indicate that this structure is also present at neutral pH. S1 nuclease sensitivity is retained for the shorter repeat (AGGAG)6GA in a recombinant plasmid but is not seen for the repeat (CTGAG)6, corresponding to the DR1 repeat of the alpha switch region, or in a sequence corresponding to a portion of the consensus sequence which contains a short stretch of alternating pyrine-pyrimidine residues. Fine mapping of the (AGGAG)6GA and flanking sequences with dimethyl sulfate, bromoacetaldehyde, osmium tetroxide, and diethyl pyrocarbonate reveals an asymmetric pattern of modification dependent on both pH and supercoiling. Two-dimensional gel electrophoresis at low pH shows the relaxation of 3 superhelical turns on formation of this structure by the (AGGAG)6GA repeat. These results are most consistent with the formation of an intramolecular triple-strand.     

T-cell receptor gamma/delta: comparison of gene configurations and function between humans and chimpanzees

The human and chimpanzee T-cell receptor gamma-delta (TCR ) bearing cells represent a minor subset (3–8%) of T lymphocytes. In the periphery, the TCR population has a restricted combinatorial repertoire. The TCRD-V1 and-V2 gene products are expressed in a mutually exclusive fashion, whereas, the TCRD-V2 and the TCRG-V9 encoded proteins show, in general, a coordinated expression. Restriction fragment length polymorphism analysis showed conservation of the restriction sites that identify the TCRG-V9 and TCRD-V2 rearrangements. The human TCRG-V9 locus has two alleles, TCRG-V9A1 and TCRG-V9A2 differing at codon position 31. The chimpanzee TCRG-V9 gene product differs from the products of the human TCRG-V9A1 and TCRG-V9A2 allele by two and three amino acid replacements, respectively. The human and the chimpanzee TCRG-V9-TCRD-V2 lymphocytes show a similar specific proliferative and cytolytic response to human Daudi Burkitt's lymphoma cells. Therefore, the amino acid replacements found in the chimpanzee TCRG-V9 gene product do not change the superantigen specificity across this species barrier.This nucleotide sequence data reported in this paper have been submitted to the EMBL data library and have been assigned the accession number: X61069 P. Troglodytes TCR VGG.     

Cloning,expression, and crystallization of the V delta domain of a human gamma delta T-cell receptor.

T-lymphocytes recognize a wide variety of antigens through highly diverse cell-surface glycoproteins known as T-cell receptors (TCRs). These disulfide-linked heterodimers are composed of alpha and beta or gamma and delta polypeptide chains consisting of variable (V) and constant (C) domains non-covalently associated with at least four invariant chains to form the TCR-CD3 complex. It is well established that alpha beta TCRs recognize antigen in the form of peptides bound to molecules of the major histocompatibility complex (MHC); furthermore, information on the three-dimensional structure of alpha beta TCRs has recently become available through X-ray crystallography. In contrast, the antigen specificity of gamma delta TCRs is much less well understood and their three-dimensional structure is unknown. We have cloned the delta chain of a human TCR specific for the MHC class I HLA-A2 molecule and expressed the V domain as a secreted protein in the periplasmic space of Escherichia coli. Following affinity purification using a nickel chelate adsorbent, the recombinant V delta domain was crystallized in a form suitable for X-ray diffraction analysis. The crystals are orthorhombic, space group P2(1)2(1)2 with unit cell dimensions a = 69.9, b = 49.0, c = 61.6 A. and diffract to beyond 2.3 A resolution. The ability of a V delta domain produced in bacteria to form well-ordered crystals strongly suggests that the periplasmic space can provide a suitable environment for the correct in vivo folding of gamma delta TCRs.     

Sequence and diversity of the rat delta T-cell receptor

The cDNA sequence of the delta T-cell receptor (TCRD) in the adult Lewis rat thymus was determined using the technique of rapid amplification of cDNA ends. Sixteen variable region genes (TCRDV), two diversity regions (TCRDD), two joining regions (TCRDJ), and a single constant region gene (TCRDC) were identified. The sixteen unique TCRDV genes identified represented eight different subfamilies in the rat and were highly conserved (>80% nucleotide identity) to corresponding mouse sequences. Extensive junctional diversity was observed in the rat, with both TCRDD regions (TCRDD1 and TCRDD2) utilized in the majority of cDNA clones identified. The two TCRDJ genes were highly conserved and corresponded to TCRDJ1 and TCRDJ2 in the mouse; the majority of clones utilized TCRDJ1. The TCRDC region in the rat was 91.1% identical to the mouse TCRDC gene and was highly conserved to other species. Although extensive sequence information about mouse gamma-delta T-cell receptor genes is available, current knowledge of rat gamma-delta T-cells is limited. The sequence analysis presented in this study adds to our understanding of gamma-delta T-cells in general, and it may be utilized to study the role of gamma-delta T-cells in immune-mediated disease and transplantation models previously established in the rat.     

Multiple replication factors augment DNA synthesis by the two eukaryotic DNA polymerases, alpha and delta.

DNA synthesis by two eukaryotic DNA polymerases, alpha and delta, was studied using a single-strand M13 DNA template primed at a unique site. In the presence of low amounts of either DNA polymerase alpha or delta, DNA synthesis was limited and short DNA strands of approximately 100 bases were produced. Addition of replication factors RF-A, PCNA and RF-C, which were previously shown to be required for SV40 DNA replication in vitro, differentially stimulated the activity of both DNA polymerases. RF-A and RF-C independently stimulated DNA polymerase alpha activity 4- to 6-fold, yielding relatively short DNA strands (less than 1 kb) and PCNA had no effect. In contrast, polymerase delta activity was stimulated co-operatively by PCNA, RF-A and RF-C approximately 25- to 30-fold, yielding relatively long DNA strands (up to 4 kb). Neither RF-C nor RF-A appear to correspond to known polymerase stimulatory factors. RF-A was previously shown to be required for initiation of DNA replication at the SV40 origin. Results presented here suggest that it also functions during elongation. The differential effects of these three replication factors on DNA polymerases alpha and delta is consistent with the model that the polymerases function at the replication fork on the lagging and leading strand templates respectively. We further suggest that co-ordinated synthesis of these strands requires dynamic protein-protein interactions between these replication factors and the two DNA polymerases.     

Abnormal deletions in the T-cell receptor delta locus of mouse thymocytes.

Separate genetic elements (V, D, and J) encode the variable regions of lymphocyte antigen receptors. During early lymphocyte differentiation, these elements rearrange to form contiguous coding segments (VJ and VDJ) for a diverse array of variable regions. Rearrangement is mediated by a recombinase that recognizes short DNA sequences (signals) flanking V, D, and J elements. Signals flank both the 5' and 3' sides of each D element, thereby allowing assembly of a functional VDJ gene. However, in rearrangements involving the D delta 2 and J delta 1 elements of the mouse T-cell receptor delta (TCR delta) locus, we unexpectedly found that the D delta 2 element and a portion of its 5' signal are often deleted. Approximately 50% of recovered D delta 2 to J delta 1 rearrangements from thymocytes of adult wild-type mice showed such deletions. An additional 20% of the rearrangements contained standard D delta 2-J delta 1 coding junctions but showed some loss of nucleotides from the 5' D delta 2 signal. This loss was clearly associated with another event involving a site-specific cleavage at the 5' signal/coding border of D delta 2 and rejoining of the modified signal and coding ends. The abnormal loss of D delta 2 and a portion of the 5' D delta 2 signal was infrequently observed in D delta 2-to-J delta 1 rearrangements recovered from neonatal mice. The possible basis and significance of this age-dependent phenomenon are discussed.     

Interactions of azidothymidine triphosphate with the cellular DNA polymerases alpha, delta, and epsilon and with DNA primase.

The interactions of azidothymidine triphosphate, the metabolically active form of the anti-AIDS drug azidothymidine (zidovudine), with the cellular DNA polymerases alpha, delta, and epsilon, as well as with the RNA primer-forming enzyme DNA primase were studied in vitro. DNA polymerase alpha was shown to incorporate azidothymidine monophosphate into a growing polynucleotide chain. This occurred 2000-fold slower than the incorporation of natural dTTP. Despite the ability of polymerase alpha to use azidothymidine triphosphate as an alternate substrate, this compound was only marginally inhibitory to the enzyme (Ki greater than 1 mM). Furthermore, the DNA primase activity associated with DNA polymerase alpha was barely inhibited by azidothymidine triphosphate (Ki greater than 1 mM). Inhibition was more pronounced for DNA polymerases delta and epsilon. The type of inhibition was competitive with respect to dTTP, with Ki values of 250 and 320 microM, respectively. No incorporation of azidothymidine monophosphate was detectable with these two DNA polymerases because their associated 3'- to 5'-exonuclease activities degraded primer molecules prior to any measurable elongation. Template-primer systems with a preformed 3'-azidothymidine-containing primer terminus inhibited the three replicative polymerases rather potently. DNA polymerase alpha was inhibited with a Ki of 150 nM and polymerases delta and epsilon with Ki values of 25 and 20 nM, respectively. The type of inhibition was competitive with respect to the unmodified substrate poly(dA).oligo(dT) for all DNA polymerases tested. Performed 3'-azidothymidine-containing primers hybridized to poly(dA) were rather resistant to degradation by the 3'- to 5'-exonuclease of DNA polymerases epsilon and more susceptible to the analogous activity that copurified with DNA polymerase delta. It is proposed that the repair of 3'-azidothymidine-containing primers might become rate-limiting for the process of DNA replication in cells that have been treated with azidothymidine triphosphate.