Variations in integration site of avian oncornaviruses in different hosts.

We examined the integration site of avian oncornaviruses in the genome of different hosts with respect to the repetitive frequency of the cellular DNA sequences adjacent to the integrated proviral DNA. The following systems were studied: avian sarcoma virus (B-77) and avian leukosis virus (Rous-associated virus-61) in cultured duck embryonic cells and B-77 in cultured mouse 3T3 cells. These systems represent different host responses to viral infection, i.e., one in which both cellular transformation and viral replication occur (B-77-infected duck cells), one in which viral replication, but not transformation, occurs (Rous-associated virus-61-infected duck cells), and one in which transformation, but not viral replication, occurs (B-77-infected 3T3 cells). Two sequential hybridizations were used. First, large denatured DNA fragments (2.8 X 10(6) daltons) were reassociated to different C0t (mole-seconds per liter) values. Next, DNA remaining single stranded at different C0t values was isolated by hydroxylapatite column chromatography, immobilized on nitrocellulose filters, and hybridized with an excess of 3H-labeled 35S viral RNA to titrate the concentration of proviral DNA. Results show that B-77 sarcoma virus and Rous-associated virus-61 integrate in the unique region of duck DNA, whereas B-77 proviral DNA is associated with both repeated and unique host DNA sequences in transformed mouse 3T3 cells.     

Amino acid sequence homology among fructose-1,6-bisphosphatases

The hydrolysis of fructose 1,6-bisphosphate to fructose 6-phosphate is a key reaction of carbohydrate metabolism. The enzyme that catalyzes this reaction, fructose-1,6-bisphosphatase, appears to be present in all forms of living organisms. Regulation of the enzyme activity, however, occurs by a variety of distinct mechanisms. These include AMP inhibition (most sources), cyclic AMP-dependent phosphorylation (yeast), and light-dependent activation (chloroplast). In the present studies, we have made a comparison of the primary structure of mammalian fructose-1,6-bisphosphatase with the sequence of peptides isolated from the yeast Saccharomyces cerevisiae, Escherichia coli, and spinach chloroplast enzymes. Our results demonstrate a high degree of sequence homology, suggesting a common evolutionary origin for all fructose-1,6-bisphosphatases.     

Comparison of lipophilic proteins in murine and avian oncornaviruses

This report deals with the occurence of lipophilic proteins in avian and murine oncornaviruses. In these compounds the protein moieties are firmly though not covalently bound to the phospholipid moieties. This linkage may contribute to the solubility of these compounds in organic solvents, which provides a mean to separate them from other proteins. With an acidic chloro-form-methanol mixture, proteins of an apparent molecular weight of 25.000 and 10–17.000 daltons are extracted from Rous Sarcoma Virus and from Rous associated Virus, and proteins of apparent M.W. of 12–22.000 daltons are extracted from the Friend Virus Complex. Immunoprecipitation with specific antisera shows that the lipophilic material contains avian p27, murine p15, p15 E and probably p12 E and that murine $\text{gp69}\text{71}$, p10 and p12 are not lipophilic. Some phospholipids remain attached to the lipophilic proteins after extraction; they are mainly phosphatidylserine and phosphatidylinositol. A model describing the organisation of the protein constituents in virions based on the known properties of oncornavirus proteins and our results is proposed.     

The protein sequence homology of gamma-crystallins among major vertebrate classes and their DNA sequence homology to heat-shock protein genes

A systematic characterization of lens crystallins from five major classes of vertebrates was carried out by exclusion gel filtration, cation-exchange chromatography and N-terminal sequence determination. All crystallin fractions except that of -crystallin were found to be N-terminally blocked. -Crystallin is present in major classes of vertebrates except the bird, showing none, or decreased amounts, of this protein in chicken and duck lenses, respectively. N-Terminal sequence analysis of the purified -crystallin polypeptides showed extensive homology between different classes of vertebrates, supporting the close relatedness of this family of crystallin even from the evolutionarily distant species. Comparison of nucleotide sequences and their predicted amino acid sequences between -crystallins of carp and rat lenses and heat-shock proteins demonstrated partial sequence homology of the encoded polypeptides and striking homology at the gene level. The unexpected strong homology of complementary DNA (cDNA) lies in the regions coding for 40 N-terminal residues of carp -II, rat 2-1, and the middle segments of 23,000- and 70,000-M _r heat-shock proteins. The optimal alignment of DNA sequences along these two segments shows about 50% homology. The percentage of protein sequence identity for the corresponding aligned segments is only 20%. The weak sequence homology at the protein level is also found between the invertebrate squid crystallin and rat -crystallin polypeptides. These results pointed to the possibility of unifying three major classes of vertebrate crystallins into one // superfamily and corroborated the previous supposition that the existing crystallins in the animal kingdom are probably mutually interrelated, sharing a common ancestry.     

Structure of the Drosophila DNA topoisomerase II gene. Nucleotide sequence and homology among topoisomerases II

We have determined the nucleotide sequence of the Drosophila DNA topoisomerase II gene. Data from primer extension and S1 nuclease protection experiments were combined with comparisons of genomic and cDNA sequences to determine the structure of the mature messenger RNA. This message has a large open reading frame of 4341 nucleotides. The length of the predicted protein is 1447 amino acids with a molecular weight of 164,424. Topoisomerase II can be divided into three domains: (1) an N-terminal region with homology to the B (ATPase) subunit of the bacterial type II topoisomerase, DNA gyrase; (2) a central region with homology to the A (breaking and rejoining) subunit of DNA gyrase; (3) a C-terminal region characterized by alternating stretches of positively and negatively charged amino acids. DNA topoisomerase II from the fruit fly shares significant sequence homology with those from divergent sources, including bacteria, bacteriophage T4 and yeasts. The location and distribution of homologous stretches in these sequences are analyzed.     

Sequence homology between avian and human adenoviruses

Studies of hybridization between fowl adenovirus type 1 (chicken embryo lethal orphan virus) DNA and human adenovirus type 2 DNA revealed two short but distinct regions which cross-hybridized under stringent conditions. One of the homologous regions was located between map positions 18.1 and 19.3 and did not correspond to any gene recognized so far. The second region mapped in the hexon gene between position 57 and 58.     

Single-copy sequence homology among the GC-richest isochores of the genomes from warm-blooded vertebrates

We have hybridized a human DNA fraction corresponding to the GC-richest and gene-richest isochore family, H3, on compositional fractions of DNAs from 12 mammalian species and three avian species, representing eight and three orders, respectively. Under conditions in which repetitive sequences are competed out, the H3 isochore probe only or predominantly hybridized on the GC-richest fractions of main-band DNA from all the species investigated. These results indicate that single-copy sequences from the human H3 isochores share homology with sequences located in the compositionally corresponding compartments of the vertebrate genomes tested. These sequences are likely to be essentially formed by conserved coding sequences. The present results add to other lines of evidence indicating that isochore patterns are highly conserved in warm-blooded vertebrate genomes. Moreover, they refine recent reports (Sabeur et al., 1993; Kadi et al., 1993), and correct them in some details and also in demonstrating that the shrew genome does not exhibit the general mammalian pattern, but a special pattern.Correspondence to: G. Bernardi     

Structural homology among calf thymus alpha-polymerase polypeptides.

A sample of highly purified calf thymus alpha-polymerase contained an abundant 118,000 Mr polypeptide as well as five lower molecular weight polypeptides in the range of 54,000- to 64,000-Mr. This 118,000-Mr polypeptide was capable of DNA polymerase activity, as revealed by in situ assay after SDS-polyacrylamide gel electrophoresis. Tryptic peptide mapping indicated that the 118,000-Mr polypeptide shared extensive primary structure homology with 57,000-, 58,000- and 64,000-Mr polypeptides and some limited homology with 54,000- and 56,000-Mr polypeptides. This is the first evidence that lower and higher Mr polypeptides of purified calf thymus alpha-polymerase share sequence homology; these results are interpreted in the context of a model that predicts the existence of a common precursor with molecular weight greater than 140,000.     

A test for nucleotide sequence homology

Two macromolecular sequences which have evolved from a common ancestor sequence will tend to include a large number of elements unaffected by replacement mutations in both sequences, as long as the evolutionary rate is not too high or the divergence time is not too great. The positions of corresponding elements may have changed in either daughter sequence due to deletion/insertion mutations involving other sequence elements, but their order can be expected to be the same in both sequences. These sets of correspondences, called matches, may be computed by a recursive algorithm which incorporates constraints on the number of deletion/insertion mutations hypothesized to have occurred. A test is developed which computes the significance of each deletion/insertion hypothesized, based on Monte-Carlo sampling of random sequences with the same base composition as the experimental sequences being tested. Applying the test to 5 S RNAs confirms the relation of Escherichia coli and KB carcinoma 5 S RNAs and establishes the previously undetected homology between Pseudomonas fluorescens and KB 5 S RNAs.     

ISHAN: sequence homology analysis package

Sequence based homology studies play an important role in evolutionary tracing and classification of proteins. Various methods are available to analyze biological sequence information. However, with the advent of proteomics era, there is a growing demand for analysis of huge amount of biological sequence information, and it has become necessary to have programs that would provide speedy analysis. ISHAN has been developed as a homology analysis package, built on various sequence analysis tools viz FASTA, ALIGN, CLUSTALW, PHYLIP and CODONW (for DNA sequences). This JAVA application offers the user choice of analysis tools. For testing, ISHAN was applied to perform phylogenetic analysis for sets of Caspase 3 DNA sequences and NF-kappaB p105 amino acid sequences. By integrating several tools it has made analysis much faster and reduced manual intervention.     

Phosphoproteins: structural components of oncornaviruses.

Oncornaviruses, which contain a virion-associated protein kinase, were found to possess phosphoproteins as virion structural components. One major phosphoprotein common to strains of laboratory and wild mouse oncornaviruses and a strain of feline leukemia virus was shown to be a polypeptide of about 12, 000 mol wt. In addition to this, the Kirsten strain of murine sarcoma virus contained a second major phosphoprotein of about 10, 000 mol wt, and mouse erythroblastosis virus contained a second major phosphoprotein that was either identical to or comigrated with the virion glycoprotein of about 74, 000 mol wt. The major phosphoprotein of RD-114 virus was found to be of about 16, 000 mol wt. The major phosphoamino acid of the 12, 000-mol wt polypeptide of the mouse erythroblastosis virus was identified as phosphoserine, and that of the 16, 000-mol wt polypeptide of the RD-114 virus was identified as phosphothreonine.     

A new method to detect related function among proteins independent of sequence and fold homology

A new method has been developed to detect functional relationships among proteins independent of a given sequence or fold homology. It is based on the idea that protein function is intimately related to the recognition and subsequent response to the binding of a substrate or an endogenous ligand in a well-characterized binding pocket. Thus, recognition of similar ligands, supposedly linked to similar function, requires conserved recognition features exposed in terms of common physicochemical interaction properties via the functional groups of the residues flanking a particular binding cavity. Following a technique commonly used in the comparison of small molecule ligands, generic pseudocenters coding for possible interaction properties were assigned for a large sample set of cavities extracted from the entire PDB and stored in the database Cavbase. Using a particular query cavity a series of related cavities of decreasing similarity is detected based on a clique detection algorithm. The detected similarity is ranked according to property-based surface patches shared in common by the different clique solutions. The approach either retrieves protein cavities accommodating the same (e.g. co-factors) or closely related ligands or it extracts proteins exhibiting similar function in terms of a related catalytic mechanism. Finally the new method has strong potential to suggest alternative molecular skeletons in de novo design. The retrieval of molecular building blocks accommodated in a particular sub-pocket that shares similarity with the pocket in a protein studied by drug design can inspire the discovery of novel ligands.