The making of strand-specific M13 probes

The cytochrome oxidase subunit I gene of Tetrahymena: a 57 amino acid NH2-terminal extension and a 108 amino acid insert

The gene sequence for cytochrome oxidase subunit I (COI) in the ciliate Tetrahymena mitochondrial DNA has been determined and shown to be coded by the same strand as codes the genes (in order) for 14S rRNA, tRNA(trp), tRNA(glu), 21S rRNA, tRNA(leu) and tRNA(met). The predicted protein has 698 amino acids, including an NH2-terminal 57 amino acid extension and a 108 amino acid insert originally found in Paramecium COI. These extension and insert segments are not highly hydrophobic but are relatively rich in lysine, arginine and serine. In analogy with the presequence of nuclear-encoded mitochondrial proteins, they might function as a transmembrane signal. The remaining polypeptide segments show a hydrophobicity characteristic of membrane spanning proteins. TCOI shows a 64% amino acid identity with Paramecium COI but less than a 38% amino acid conservation with human COI. The Tetrahymena mitochondrial code is analogous with the mammalian mitochondrial code; but differs from the Tetrahymena nuclear genetic code; TGA is exclusively translated as tryptophan; ATA is used as an initiation codon probably for methionine, and TAA as a stop codon; the arginine codons (CGN) are not used. The use of the leucine codon TTA in TCOI is contradictory to the codon recognition pattern previously obtained from the isolated tRNA(leu) isoacceptors recognizing only the CUN codons, but consistent with the tRNA(leu) (anticodon UAA) gene encoded in the genome. The reason for this inconsistency has not been resolved.

Evolution of an inducible penicillin-target protein in methicillin-resistant Staphylococcus aureus by gene fusion

A new beta-lactam-inducible penicillin-binding protein (PBP) that has extremely low affinity to penicillin and most other beta-lactam antibiotics has been widely found in highly beta-lactam(methicillin)-resistant Staphylococcus aureus (MRSA). The gene for this protein was sequenced and the nucleotide sequence in its promoter and close upstream area was found to show close similarity with that of staphylococcal penicillinase, while the amino acid sequence over a wide range of the molecule was found to be similar to those of two PBPs of Escherichia coli, the shape-determining protein (PBP 2) and septum-forming one (PBP 3). Probably the MRSA PBP (Mr 76462) evolved by recombination of two genes: an inducible type I penicillinase gene and a PBP gene of a bacterium, causing the formation of a beta-lactam-inducible MRSA PBP.

Analysis of upstream activation sites of yeast ribosomal protein genes

Transcription of the gene encoding yeast ribosomal protein L25 was previously shown to be activated through tandemly arranged upstream sequence elements that most rp-genes in yeast have in common. A single copy of such a conserved element is now demonstrated to restore transcription of an inactivated heterologous gene, which confirms its role as a genuine UAS: UASrpg. Though a single box is sufficient to activate transcription, most rp-genes harbor two neighbouring elements. Northern analysis of mutants of the L25 upstream region lacking either the gene-distal (RPG1) or the gene-proximal (RPG2) box provided evidence that RPG2 is significantly more effective than RPG1 in vivo. Moreover the sum of the effects of the individual boxes as measured separately is significantly lower than their joint effect, supporting cooperative interaction between the two boxes in vivo. Making use of oligomer-insertion experiments several additional features of the UASrpg were elucidated. First of all we confirmed that the extent of transcription activation by the UASrpg depends upon the orientation of the element. Secondly we show that a certain minimal distance (greater than 100 n) between UASrpg and the transcription initiation site is required for transcription activation. Finally, internal deletion of the L25-upstream region as well as oligomer-insertion shed some light on the nucleotide requirements of the UASrpg.

Comparison of the genetic determinant coding for the S-fimbrial adhesin (sfa) of Escherichia coli to other chromosomally encoded fimbrial determinants

DNA probes specific for different regions of the S-fimbrial adhesin (sfa) determinant were constructed and hybridized with DNA sequences coding for P (F8 and F13), mannose-sensitive hemagglutinating type 1 (F1A), and F1C fimbriae. While the sfa and F1C DNA determinants exhibited homology along their entire lengths, the P-fimbrial and type 1-fimbrial determinants exhibited homology to regions of the sfa cluster responsible for the control of transcription and, to a minor extent, to regions coding for proteins involved in biogenesis and/or adhesion of the fimbriae and for the N-terminal part of the fimbrillin subunit.

Characterization of the alpha-tubulin gene family of Arabidopsis thaliana

The genome of Arabidopsis thaliana (Linnaeus) Heynhold was shown to contain an alpha-tubulin gene family consisting of at least four genes and/or pseudogenes. The primary structure of a transcribed alpha-tubulin gene was determined. A comparison of the predicted amino acid sequence of the A. thaliana alpha-tubulin with the predicted amino acid sequences of alpha-tubulins of Chlamydomonas reinhardtii, Stylonychia lemnae, and Homo spaiens reveals a high degree of homology; 90%, 87%, and 83% identity, respectively. Thus, a plant alpha-tubulin exhibits a high degree of homology to the alpha-tubulins of protists and animals. The coding sequence of the A. thaliana alpha-tubulin gene is interrupted by four introns, which occur at positions different from those of the less numerous introns of C. reinhardtii and rat alpha-tubulin genes. S1 nuclease mapping data showed that transcription is initiated 99 +/- 1 base pairs upstream from the translation initiation codon. Both 5' and 3' noncoding gene-specific probes were used to examine the expression of the alpha-tubulin gene in leaves, roots, and flowers by hybridization to total RNA isolated from these tissues. The results showed that the alpha-tubulin gene was transcribed in all three tissues.

Sequence and transcription of the beta-glucosidase gene of Kluyveromyces fragilis cloned in Saccharomyces cerevisiae

The complete nucleotide sequence of the beta-glucosidase gene of Kluyveromyces fragilis has been determined. This sequence contains an open reading frame of 2535 base pairs encoding a protein of 845 amino acids. Analysis of the transcription products revealed only one transcript of about 3 kb identical in both Kluyveromyces fragilis and in the expression host Saccharomyces cerevisiae. The protein molecular weight of 93,811 Kd deduced from the sequence is consistent with the 90,000 Kd determined by SDS polyacrylamide gel electrophoresis with the purified protein. Mapping of the starts of transcription shows that two starting points are used in the natural host Kluyveromyces fragilis. A comparison of the amino acid sequence with that of other beta-glucosidases revealed three regions of homology. One of these regions contains an amino acid sequence very similar to a peptide isolated from the active site of beta-glucosidase A3 from Aspergillus wentii and could be implicated in the catalytic mechanism of these glucolytic enzymes.

Herpes simplex virus immediate-early promoters are responsive to virus and cell trans-acting factors

The promoters for each of the immediate-early genes from herpes simplex virus type 1 were cloned and fused to a chloramphenicol acetyltransferase cassette. These chimeric genes were used as targets in a transient expression assay to determine how the immediate-early gene products ICP4 and ICP0 and the virion-associated stimulatory protein Vmw65 affected their expression in HeLa and Vero cells. The basal level of expression from these cassettes differed significantly depending on the extent of 5'-flanking sequence and the cell line that served as host. The promoters from IE-4 and IE-0 behaved in a qualitatively similar fashion independent of the host cell. However, the promoter for ICP27 had a unique response pattern: in Vero cells it acted as an alpha gene promoter, whereas in HeLa cells its response was more like that of a beta gene promoter. The promoter sequences for ICP22 and ICP47 behaved as the IE-4 and IE-0 promoters did in HeLa cells, but their response to the effector molecules in Vero cells was unlike that of other alpha gene promoters we have studied. Evidence is also presented for a role for ICP27 in autoregulation.

Reassortment of DNA recognition domains and the evolution of new specificities

Type I restriction enzymes comprise three subunits only one of which, the S polypeptide, dictates the specificity of the DNA sequence recognized. Recombination between two different hsdS genes, SP and SB, led to the isolation of a system, SQ, which had a different specificity from that of either parent. The finding that the nucleotide sequence recognized by SQ is a hybrid containing components from both the SP and SB target sequences suggested that DNA recognition is carried out by two separable domains within each specificity polypeptide. To test this we have made the recombinant gene of reciprocal structure and demonstrate that it encodes a polypeptide whose recognition sequence, deduced in vivo, is as predicted by this model. We also report the sequence of the SB specificity gene, so that information is now available for the five known members of this family of enzymes. All show a similar organization of conserved and variable regions. Comparisons of the predicted amino acid sequences reveal large non-conserved areas which may not even be structurally similar. This is remarkable since these different S subunits are functionally identical, except for the specificity with respect to the DNA sequence with which they interact. We discuss the correlation of the variation in polypeptide sequence with recognition specificities.

Molecular cloning and sequence analysis of the catalytic subunit of bovine type 2A protein phosphatase

We have isolated a cDNA clone corresponding to the Mr 38,000 catalytic subunit of bovine type 2A protein phosphatase. The cDNA was isolated from a bovine adrenal gland cDNA library through the use of oligonucleotide probes whose sequences were based on partial amino acid sequence obtained from cyanogen bromide fragments of the purified cardiac enzyme. The entire 1724-base-pair cDNA has been sequenced and found to contain an open reading frame coding for a protein of 325 amino acids having a calculated molecular weight of 37,320. The deduced amino acid sequence contains the experimentally determined sequences of five different cyanogen bromide peptides. Transfection of COS-m6 cells with the cloned cDNA resulted in transient expression of a protein that could be detected by immunoblot analysis with a monoclonal antibody directed against the purified cardiac protein phosphatase. The expressed protein had the same apparent molecular weight as the purified enzyme when analyzed by NaDodSO4/polyacrylamide gel electrophoresis, suggesting that this clone contains the entire coding region of the phosphatase mRNA. The cloned cDNA hybridizes to a mRNA of 2.0 kilobases in bovine heart and adrenal gland. Under conditions of reduced stringency, the cDNA also hybridizes to a mRNA species of 1.2 kilobases in cardiac tissue.

Molecular cloning and genetic analysis of the suppressor-of-white-apricot locus from Drosophila melanogaster

We report genetic and molecular analysis of the suppressor-of-white-apricot [su(wa)] locus, one of several retrotransposon insertion allele-specific suppressor loci in Drosophila melanogaster. First, we isolated and characterized eight new mutations allelic to the original su(wa)1 mutation. These studies demonstrated that su(wa) mutations allelic to su(wa)1 affected a conventional D. melanogaster complementation group. Second, we cloned the chromosomal region containing the su(wa) complementation group by P element transposon tagging. The ca. 14-kilobase region surrounding the su(wa) complementation group contained five distinct transcription units, each with a different developmentally programmed pattern of expression. Third, we used a modified procedure for P-mediated gene transfer to identify the transcription unit corresponding to su(wa) by gene transfer. Fourth, we found that the presumptive su(wa) transcription unit produced a family of transcripts (ranging from ca. 3.5 to ca. 5.2 kilobases) in all developmental stages, tissue fractions, and cell lines we examined, suggesting that the gene is universally expressed.

Testis development in a mouse with 10% of XY cells

Two mouse Y-chromosome-related DNA probes were used to show that an aspermic sterile male mouse with small testes contained only approximately 10% of normal XY cells dispersed among normal XX cells. Examination of testis sections by in situ hybridization revealed that XY cells were nonrandomly concentrated in the testis tubules when compared with the interstitial cell population. These observations are discussed in the context of primary sex determination and histological differentiation of the testis.

Amino acid sequence of the L-lactate dehydrogenase of Bacillus caldotenax deduced from the nucleotide sequence of the cloned gene

The Bacillus caldotenax L-lactate dehydrogenase gene (lct) has been cloned into Escherichia coli, using the Bacillus stearothermophilus lct gene as a hybridisation probe, and its complete nucleotide sequence determined. The lct structural gene consists of an open reading frame of 951 base pairs commencing with an ATG start codon and followed by a TAA stop codon. Upstream of the gene are putative transcriptional promoter -35 and -10 regions; a ribosome binding site with a predicted delta G of -66.9 kJ/mol is also present six base pairs upstream of the ATG start codon. The B. caldotenax lct gene is highly homologous to the B. stearothermophilus lct gene displaying a DNA sequence homology of 89.7%. Examination of the DNA sequence 3' of the lct gene revealed the presence of two further open reading frames. This suggests that the lct gene may be the first gene of an operon. The deduced amino acid sequence of the L-lactate dehydrogenase (LDH) from B. caldotenax predicted a protein of 317 amino acid residues; comparison with the B. stearothermophilus enzyme revealed only 30 amino acid differences between the two enzymes; thus the enzymes are 90.4% homologous. These amino acid differences must account for the different thermostabilities of the two enzymes. The B. caldotenax lct gene was efficiently expressed in E. coli and the original lct-containing plasmid construct isolated (pKD1) induced the synthesis of LDH at a level of 4.5% of the E. coli soluble cell protein whilst a SmaI subfragment of this clone, (pKD2) produced LDH at a level of 6.9% of the E. coli soluble cell protein. LDH isolated from E. coli cells had the same thermal stability properties as LDH isolated from B. caldotenax cells.

Tumorigenic poxviruses: transcriptional mapping of the terminal inverted repeats of Shope fibroma virus

A composite transcriptional map for the entire 12.4-kb terminal inverted repeat (TIR) region of the Shope fibroma virus (SFV) genome has been determined. Northern blotting and S1-nuclease mapping were used to determine the regions which are transcribed, their temporal relationships, as well as the transcriptional initiation sites. Sequences representing the entire TIR are transcribed into poly(A)+ mRNA at both early and late times in the infection. Fifteen transcriptional initiation sites were mapped, 12 within the TIRs and 3 within the unique sequences close to the junction between the right TIR and the unique internal sequences. Ten of the 12 transcriptional initiation sites within the TIR and 2 of the 3 sites outside the right TIR correspond to the 5'-ends of the major open reading frames (ORFs) T1 to T9 plus the SFV growth factor gene. The 3 other initiation sites map within ORFs but near potential start codons for shorter polypeptides. All the expressed ORFs are tandemly arranged and transcribed toward the hairpin terminus. At early times during SFV infection of cultured rabbit cells, transcription of each ORF gives rise to a transcript of distinct size, while at late times termination of transcription is imprecise and substantial read-through into downstream sequences occurs. These results are discussed in light of recent observations on the related recombinant leporipoxvirus, malignant rabbit fibroma virus, which suggest that one or more gene products from this region of the SFV genome are implicated in viral tumorigenicity.

Antibodies to a fusion protein identify a cDNA clone encoding msp130, a primary mesenchyme-specific cell surface protein of the sea urchin embryo

In this report we identify a 130-kDa protein encoded by a sea urchin primary mesenchyme-specific cDNA clone, 18C6. The cDNA clone has been partially sequenced, and an open reading frame has been identified. A portion of this open reading frame has been expressed as a beta-galactosidase fusion protein in Escherichia coli, and antibodies to the fusion protein have been generated. These antibodies recognize a 130-kDa protein localized at the surface of primary mesenchyme cells and designated msp130. This is demonstrated to be the same 130-kDa protein recognized by the primary mesenchyme-specific monoclonal antibody B2C2, which recognizes a post-translational modification of the protein. RNA gel blots show that the transcript encoding msp130 is undetectable in egg RNA or 16-cell RNA but can be first detected in premesenchyme blastula embryos. The transcript accumulates significantly after primary mesenchyme cell ingression. Analysis of the expression of msp130 by indirect immunofluorescence staining of embryos and by immunoblots using fusion protein antibodies shows that the msp130 protein is first detectable soon after primary mesenchyme cell ingression.

Molecular cloning of the CD2 antigen, the T-cell erythrocyte receptor, by a rapid immunoselection procedure

A cDNA encoding the CD2 antigen has been isolated by a highly efficient technique based on transient expression in COS cells and adherence of cells expressing surface antigen to antibody-coated dishes. COS cells expressing a CD2 cDNA isolated by this method readily formed rosettes with sheep as well as human and other mammalian erythrocytes. Pretreatment of transfected COS cells with anti-CD2 antibody, or pretreatment of human erythrocytes with anti-LFA-3 antibody, abolished rosette formation.

Rearrangement and expression of erythropoietin genes in transformed mouse cells

The erythroleukemia cell line IW32, derived by transformation with the Friend murine leukemia virus, has been shown previously to produce erythropoietin (EPO) constitutively. Here we demonstrate that, in addition to the normal mouse EPO locus, this cell line has another EPO locus which has undergone rearrangement and amplification. Both loci were cloned, and the rearrangement breakpoint of the second EPO locus was located within a 1.1-kilobase region upstream of an otherwise apparently normal EPO gene. There are no viral sequences present in the immediate vicinity of the rearranged EPO gene. DNase I digestion studies suggest that the rearranged gene is in a region where the chromatin is more sensitive to DNase hydrolysis than is the site of the normal gene. We conclude, tentatively, that the rearranged EPO locus is probably the transcriptionally active one and that either proviral sequences are acting at a distance to activate the EPO gene or the rearrangement itself has served to activate the gene.

Pre-mRNA splicing and the nuclear matrix

We examined the relationship between pre-mRNA splicing and the nuclear matrix by using an in vivo system that we have developed. Plasmids containing the inducible herpesvirus tk gene promoter linked to an intron-containing segment of the rabbit beta-globin gene were transfected into HeLa cells, and then the promoter was transactivated by infection with a TK- virus. Northern analysis revealed that the globin pre-mRNA and all its splicing intermediates and products are associated with the nuclear matrix prepared from such transfected cells. When the nuclear matrix was incubated with a HeLa cell in vitro splicing extract in the presence of ATP, the amount of matrix-associated precursor progressively decreased without a temporal lag in the reaction, with a corresponding increase in free intron lariat. Thus, most of the events of the splicing process (endonucleolytic cuts and branching) occur in this in vitro complementation reaction. However, ligation of exons cannot be monitored in this system because of the abundance of preexisting mature mRNA. Since the matrix is not a self-splicing entity, whereas the in vitro splicing system cannot process efficiently deproteinized matrix RNA, we conclude from our in vitro complementation results (which can be reproduced by using micrococcal nuclease-treated splicing extract) that the nuclear matrix preparation retains parts of preassembled ribonucleoprotein complexes that have the potential to function when supplemented with soluble factors (presumably other than most of the small nuclear ribonucleoproteins known to participate in splicing) present in the HeLa cell extract.

Biogenesis of E. coli Pap pili: papH, a minor pilin subunit involved in cell anchoring and length modulation

The biogenesis of Escherichia coli Pap pili, encoded by the pap gene cluster, was studied. A novel gene, papH, was identified and found to encode a weakly expressed pilin-like protein. PapH was dispensable for digalactoside-specific binding and for formation of Pap pili. However, in papH deletion mutants 50%-70% of total pilus antigen was found free of the cells. We present evidence showing coregulation of papH and the adjacent gene, papA, which encodes the major pilin subunit. A decrease in the PapA to PapH ratio resulted in a large fraction of cells producing shortened pili, whereas overproduction of PapA relative to PapH resulted in cells with lengthened pili. The data show that PapH has roles in anchoring the pilus to the cell and in modulating pilus length.

Structural and transcriptional analysis of human papillomavirus type 16 sequences in cervical carcinoma cell lines

We cloned and analyzed the integrated human papillomavirus type 16 (HPV-16) genomes that are present in the human cervical carcinoma cell lines SiHa and CaSki. The single HPV-16 genome in the SiHa line was cloned as a 10-kilobase (kb) HindIII fragment. Integration of the HPV-16 genome occurred at bases 3132 and 3384 with disruption of the E2 and E4 open reading frames (ORFs). An additional 52-base-pair deletion of HPV-16 sequences fused the E2 and E4 ORFs. the 5' portion of the disrupted E2 ORF terminated immediately in the contiguous human right-flanking sequences. Heteroduplex analysis of this cloned integrated viral genome with the prototype HPV-16 DNA revealed no other deletions, insertions, or rearrangements. DNA sequence analysis of the E1 ORF, however, revealed the presence of an additional guanine at nucleotide 1138, resulting in the fusion of the E1a and E1b ORFs into a single E1 ORF. Sequence analysis of the human flanking sequences revealed one-half of an Alu sequence at the left junction and a sequence highly homologous to the human O repeat in the right-flanking region. Analysis of the three most abundant BamHI clones from the CaSki line showed that these consisted of full-length, 7.9-kb HPV-16 DNA; a 6.5-kb genome resulting from a 1.4-kb deletion of the long control region; and a 10.5-kb clone generated by a 2.6-kb tandem repeat of the 3' early region. These HPV-16 genomes were arranged in the host chromosomes as head-to-tail, tandemly repeated arrays. Transcription analysis revealed expression of the HPV-16 genome in each of these two cervical carcinoma cell lines, albeit at significantly different levels. Preliminary mapping of the viral RNA with subgenomic strand-specific probes indicated that viral transcription appeared to be derived primarily from the E6 and E7 ORFs.

Location, transcription, and sequence of a baculovirus gene encoding a small arginine-rich polypeptide

The nucleotide sequence of the cDNA of an abundant late 0.5-kilobase transcript of Autographa californica nuclear polyhedrosis virus revealed a small open reading frame encoding an arginine-rich 6.9-kilodalton protein. The predicted amino acid composition of the 6.9-kilodalton protein was essentially identical to that of the core protein of viral nucleocapsids. The precise location of the 5' and 3' ends of the transcript were confirmed by S1 nuclease and primer extension analyses. Multiple overlapping transcripts through this region include three early and three abundant late RNAs which are transcribed counterclockwise and one transient RNA which is transcribed clockwise with respect to the physical map of the virus.

Molecular diagnosis of infectious diseases by nucleic acid hybridization

Diagnostic microbiology has traditionally relied on the cultivation of an infecting agent in an in vitro system. However, the limitations of these methods have led to the development of alternative, molecular techniques which can detect specific microbial proteins or nucleic acids directly in body fluids. One such method, nucleic acid hybridization, has many attractive features including the potential for high sensitivity and specificity, the detection of a chemically stable analyte and the use of uniform reagents. Nucleic acid hybridization reactions have been used to detect a variety of microbial pathogens in assay formats using extracted nucleic acids or tissue sections. However, wider application of these techniques is limited by the fact that current methods employ radioisotopically labelled probes and cumbersome assay procedures. Solutions to these problems have been sought by the development of non-radioactive hybridization techniques which utilize enzymatic detection methods and by the development of rapid hybridization assays performed in solution. Further improvements in labelling techniques, assay formats and enzymatic detection methods should allow for the wider application of nucleic acid hybridization reactions in diagnostic microbiology.

Plasmid marker rescue transformation proceeds by breakage-reunion in Bacillus subtilis

Bacillus subtilis carrying a plasmid which replicates with a copy number of about 1 was transformed with linearized homologous plasmid DNA labeled with the heavy isotopes 2H and 15N, in the presence of 32Pi and 6-(p-hydroxyphenylazo)-uracil to inhibit DNA replication. Plasmid DNA was isolated from the transformed culture and fractionated in cesium chloride density gradients. The distribution of total and donor plasmid DNA was examined, using specific hybridization probes. The synthesis of new DNA, associated with the integration of donor moiety, was also monitored. Donor-specific sequences were present at a density intermediate between that of light and hybrid DNA. This recombinant DNA represented 1.4% of total plasmid DNA. The latter value corresponded well with the transforming activity (1.7%) obtained for the donor marker. Newly synthesized material associated with plasmid DNA at the recombinant density amounted to a minor portion of the recombinant plasmid DNA. These data suggest that, like chromosomal transformation, plasmid marker rescue transformation does not require replication for the integration of donor markers and, also like chromosomal transformation, proceeds by a breakage-reunion mechanism. The extent of donor DNA replacement of recipient DNA per plasmid molecule of 54 kilobases (27 kilobase pairs) was estimated as 16 kilobases.

[Technic of nucleic acid hybridization and its significance for diagnostic problems]

Nucleic acid hybridization techniques (e.g., Southern blotting and in situ hybridization) gain increasing importance in laboratory medicine, as demonstrated by examples in this paper. The molecular basis of this approach to detect nucleic acids homologous to known DNA probes is explained. It is concluded that this technique has advantages in the detection of pathogens compared to other methods used in laboratory medicine.

The invected gene of Drosophila: sequence analysis and expression studies reveal a close kinship to the engrailed gene

The invected and engrailed genes are juxtaposed in the Drosophila genome and are closely related in sequence and pattern of expression. The structure of the most abundant invected transcript was defined by obtaining the full-length cDNA sequence and by S1 nuclease sensitivity and primer extension studies; a partial sequence of the invected gene was determined; and the developmental profile of invected expression was characterized by Northern analysis and by in situ localization. The invected gene, like the engrailed gene, is expressed in the embryonic and larval cells of the posterior developmental compartments and in the embryonic hindgut, clypeolabrum, and nervous system. Like the engrailed gene, the invected gene can encode a protein of approximately 60 kD that contains a homeo box near its carboxyl terminus; indeed, a sequence of 117 amino acids in the carboxy-terminal region of both proteins is almost identical. The developmental role of the invected gene is not known.

Molecular characterization of the genomic S RNA segment from lymphocytic choriomeningitis virus

We have used cDNA clones derived from the genomic S RNA segment of lymphocytic choriomeningitis virus (LCMV), Armstrong strain, as hybridization probes to monitor virus gene expression during acute infections. Our results with strand-specific probes confirm the ambisense character of the LCMV S RNA segment and document the presence of both genomic sense and genomic complementary sense RNA species over the time course of infection. We have used nucleotide sequence information to predict primary amino acid sequences for the major viral structural proteins, nucleoprotein (NP) and glycoprotein (GP-C). Antibodies raised against synthetic peptides derived from these predicted protein sequences have indicated that the gene order for the S segment is 3' NP----5' GP-C and provided direct demonstration that the GP-1 portion of the GP-C precursor is encoded nearest the 5' end of the S segment. Comparison of the predicted amino acid sequences for NP and GP-C between the Armstrong CA-1371 strain and the WE strain shows over 90% amino acid identity. This suggests that significant differences described for the pathogenic potential of the Arm and WE strains in C3H mice reside in one or a very few critical amino acid changes.

Molecular analysis of SNF2 and SNF5, genes required for expression of glucose-repressible genes in Saccharomyces cerevisiae

The SNF2 and SNF5 genes are required for derepression of SUC2 and other glucose-repressible genes of Saccharomyces cerevisiae in response to glucose deprivation. Previous genetic evidence suggested that SNF2 and SNF5 have functionally related roles. We cloned both genes by complementation and showed that the cloned DNA was tightly linked to the corresponding chromosomal locus. Both genes in multiple copy complemented only the cognate snf mutation. The SNF2 gene encodes a 5.7-kilobase RNA, and the SNF5 gene encodes a 3-kilobase RNA. Both RNAs contained poly(A) and were present in low abundance. Neither was regulated by glucose repression, and the level of SNF2 RNA was not dependent on SNF5 function or vice versa. Disruption of either gene at its chromosomal locus still allowed low-level derepression of secreted invertase activity, suggesting that these genes are required for high-level expression but are not directly involved in regulation. Further evidence was the finding that snf2 and snf5 mutants failed to derepress acid phosphatase, which is not regulated by glucose repression. The SNF2 and SNF5 functions were required for derepression of SUC2 mRNA.

The complete amino acid sequence of the human aldolase C isozyme derived from genomic clones

The complete protein sequence of the human aldolase C isozyme has been determined from recombinant genomic clones. A genomic fragment of 6673 base pairs was isolated and the DNA sequence determined. Aldolase protein sequences, being highly conserved, allowed the derivation of the sequence of this isozyme by comparison of open reading frames in the genomic DNA to the protein sequence of other human aldolase enzymes. The protein sequence of the third aldolase isozyme found in vertebrates, aldolase C, completes the primary structural determination for this family of isozymes. Overall, the aldolase C isozyme shared 81% amino acid homology with aldolase A and 70% homology with aldolase B. The comparisons with other aldolase isozymes revealed several aldolase C-specific residues which could be involved in its function in the brain. The data indicated that the gene structure of aldolase C is the same as other aldolase genes in birds and mammals, having nine exons separated by eight introns, all in precisely the same positions, only the intron sizes being different. Eight of these exons contain the protein coding region comprised of 363 amino acids. The entire gene is approximately 4 kilobases.

The memory gene dunce+ encodes a remarkable set of RNAs with internal heterogeneity

We have previously isolated the region of the Drosophila melanogaster X chromosome which contains the dunce+ gene and mapped the dunce2 mutation by recombination to a 10- to 12-kilobase (kb) interval (R. L. Davis and N. Davidson, Mol. Cell. Biol. 4:358-367, 1984). Here, we examine the expression of the dunce+ chromosomal region and identify the dunce+ gene within that region. A region of ca. 25 kb which contains the 10- to 12-kb interval to which dunce2 was mapped codes for polyadenylated RNAs of 9.6, 7.4, 7.2, 7.0, 5.4, and 4.5 kb in adult flies. These transcripts are encoded by the same DNA strand and share sequences of some exons, indicating that the transcripts arise from the same gene. Some genome probes internal to the ca. 25-kb coding region show transcript-specific hybridization, demonstrating alternate usage of exonic sequence information in the formation of the mature transcripts. The basis for this internal heterogeneity in RNAs is most likely alternative splicing. Two dunce mutants examined show aberrant RNA expression from this coding region, confirming that this region is the dunce gene. The developmental expression of these transcripts has been examined. The 5.4-kb RNA is present at all developmental stages. The 9.6-, 7.4-, 7.2-, and 7.0-kb RNAs are not expressed at detectable levels in embryos, but are detected in late embryogenesis and in later developmental stages. The 4.5-kb species is found in early embryos and adults, but not in intermediate stages. We discuss the remarkable transcript heterogeneity and expression pattern with respect to the important function this gene performs in neurobiological and other physiological processes.

Cloning and characterization of four SIR genes of Saccharomyces cerevisiae

Mating type in the yeast Saccharomyces cerevisiae is determined by the MAT (a or alpha) locus. HML and HMR, which usually contain copies of alpha and a mating type information, respectively, serve as donors in mating type interconversion and are under negative transcriptional control. Four trans-acting SIR (silent information regulator) loci are required for repression of transcription. A defect in any SIR gene results in expression of both HML and HMR. The four SIR genes were isolated from a genomic library by complementation of sir mutations in vivo. DNA blot analysis suggests that the four SIR genes share no sequence homology. RNA blots indicate that SIR2, SIR3, and SIR4 each encode one transcript and that SIR1 encodes two transcripts. Null mutations, made by replacement of the normal genomic allele with deletion-insertion mutations created in the cloned SIR genes, have a Sir- phenotype and are viable. Using the cloned genes, we showed that SIR3 at a high copy number is able to suppress mutations of SIR4. RNA blot analysis suggests that this suppression is not due to transcriptional regulation of SIR3 by SIR4; nor does any SIR4 gene transcriptionally regulate another SIR gene. Interestingly, a truncated SIR4 gene disrupts regulation of the silent mating type loci. We propose that interaction of at least the SIR3 and SIR4 gene products is involved in regulation of the silent mating type genes.

Foreign DNA introduced by calcium phosphate is integrated into repetitive DNA elements of the mouse L cell genome

We investigated the sites of integration of exogenous DNA fragments introduced by DNA-mediated gene transfer. Mouse Ltk- cells were transformed with the herpes simplex virus thymidine kinase gene and pBR322 DNA by the calcium phosphate precipitation method. Some of the integrated exogenous DNA sequences were recovered from the stable tk+ transformants in the form of plasmids that were capable of propagation in bacteria. Four plasmids derived from two cloned cell lines were analyzed in detail by nucleotide sequencing and hybridization techniques. These plasmids contained a total of seven cellular-exogenous DNA junctions. In all cases, there was no sequence homology between the exogenous and cellular DNA sequences adjacent to the joining sites, and no specific exogenous or cellular sequences occurred at the junctions. Rearrangement or deletion of Ltk- DNA was always associated with the integration of exogenous DNA. All of the assignable cellular sequences at the junctions were repetitive sequences. Two of these sequences were from the MIF-1 repetitive sequence family, and a third consisted of a 40-base pair simple copolymer of alternating deoxyadenosine-deoxythymidine. Our results suggest that repetitive sequences are relatively favorable sites for the integration of exogenous DNA.

RAD7 gene of Saccharomyces cerevisiae: transcripts, nucleotide sequence analysis, and functional relationship between the RAD7 and RAD23 gene products

The RAD7 gene of Saccharomyces cerevisiae was cloned on a 4.0-kilobase (kb) DNA fragment and shown to provide full complementation of a rad7-delta mutant strain. The nucleotide sequence of a 2.2-kb DNA fragment which contains the complete RAD7 gene was determined. Transcription of the RAD7 gene initiates at multiple sites in a region spanning positions -61 to -8 of the DNA sequence. The 1.8-kb RAD7 mRNA encodes a protein of 565 amino acids with a predicted size of 63.7 kilodaltons. The hydropathy profile of the RAD7 protein indicates a highly hydrophilic amino terminus and a very hydrophobic region toward the carboxyl terminus. A RAD7 subclone deleted for the first 99 codons complements the rad7-delta mutation, but not the rad7-delta rad23-delta double mutation, indicating that the RAD23 protein can compensate for the function that is missing in the amino-terminally deleted RAD7 protein. The RAD7 and RAD23 genes in multicopy plasmids do not complement the rad23-delta and rad7-delta mutations, respectively. These observations could mean that although the two proteins might share a common functional domain, they must also perform distinct functions. Alternatively, an interaction between the RAD7 and RAD23 proteins could also account for these observations.

Structure and expression of ferritin genes in a human promyelocytic cell line that differentiates in vitro

HL-60 is a human promyelocytic cell line with the capability of differentiating in vitro to give neutrophils, macrophages, or eosinophils. We screened libraries of HL-60 cDNA clones representing different time points during these differentiation processes to isolate clones corresponding to mRNAs whose expression is regulated during terminal differentiation. Upon sequencing this group of regulated clones, one clone encoding the heavy subunit and two clones encoding the light subunit of human ferritin were identified by reference to published amino acid sequences. Southern blot analyses showed that these clones are encoded by distinct multigene families. These clones identify two mRNAs whose ratios vary in a complex manner during both neutrophil and macrophage differentiation.

Detection of Plasmodium falciparum DNA using repetitive DNA clones as species specific probes

Repetitive sequences were identified in genomic libraries of Plasmodium falciparum and analyzed for their potential use as specific DNA probes. Nucleotide sequencing revealed inserts composed of 21 base pair tandem repeats. Clone 26 containing an insert of 147 base pairs in M13mp18 was used in three different approaches as a probe to detect P. falciparum DNA: the replicative form of clone 26 was labeled by nick translation; the single strand DNA of clone 26 was labeled by primer extension and a two step sandwich assay was employed hybridizing single strand unlabeled clone 26 DNA to the target DNA (first step) and using nick translated M13 DNA in a second step to detect the vector part of clone 26. The most sensitive probes detected 25 pg of P. falciparum DNA after 2 h of film exposure, 3 pg after 14 h and 0.78 pg after 40 h. Hybridization to genomic blots of Plasmodium vivax and human DNA using clone 26 as a probe revealed that the 21 base pair repeats specifically hybridized with P. falciparum DNA while failing to react with either human or P. vivax DNA.

Sequence homologies among the three yolk polypeptide (Yp) genes in Drosophila melanogaster

To identify candidates for cis-acting sequences that regulate the sex-, stage-, and cell-specific expression of three coordinately regulated yolk polypeptide genes (Yp) in Drosophila melanogaster, we have mapped the Yp3 transcript, sequenced a 4278 bp DNA fragment containing the Yp3 gene, compared Yp3 region sequences to corresponding parts of Yp1 and Yp2, and compared the predicted amino acid sequence of YP3 to YP1 and YP2. The results showed that the Yps are largely homologous in translated regions, especially in the 3' half of the genes. Untranscribed flanking regions had little homology. A conserved inverted repeat (the H-box) has homology both to vertebrate steroid hormone receptor binding sites and to the ecdysone control region of Drosophila's hsp23. These results identify sequences to mutate in order to define elements that regulate Yp gene expression and govern YP polypeptide function.

mRNA species regulated during the differentiation of HL-60 cells to macrophages and neutrophils

Using cDNA clone banks from differentiated and undifferentiated HL-60 promyelocytic leukemia cells, we have selected clones for genes which are regulated during this differentiation. Regulation of the corresponding mRNAs in HL-60 cells during both monocytic and neutrophilic differentiation was measured for 21 of these clones. The levels of mRNA hybridizing to some of these clones changed by more than 100-fold during differentiation. Unlike erythropoiesis or myogenesis, in which the synthesis of a few new proteins is synchronously regulated, mRNAs in differentiating HL-60 cells are asynchronously regulated, suggesting a complex series of regulatory events. About half of these regulation-selected clones contained repeat sequences, including both Alu and novel repeat families. Most of the regulated genes are members of extensive gene families.

Pre-mRNA splicing and the nuclear matrix

We examined the relationship between pre-mRNA splicing and the nuclear matrix by using an in vivo system that we have developed. Plasmids containing the inducible herpesvirus tk gene promoter linked to an intron-containing segment of the rabbit beta-globin gene were transfected into HeLa cells, and then the promoter was transactivated by infection with a TK- virus. Northern analysis revealed that the globin pre-mRNA and all its splicing intermediates and products are associated with the nuclear matrix prepared from such transfected cells. When the nuclear matrix was incubated with a HeLa cell in vitro splicing extract in the presence of ATP, the amount of matrix-associated precursor progressively decreased without a temporal lag in the reaction, with a corresponding increase in free intron lariat. Thus, most of the events of the splicing process (endonucleolytic cuts and branching) occur in this in vitro complementation reaction. However, ligation of exons cannot be monitored in this system because of the abundance of preexisting mature mRNA. Since the matrix is not a self-splicing entity, whereas the in vitro splicing system cannot process efficiently deproteinized matrix RNA, we conclude from our in vitro complementation results (which can be reproduced by using micrococcal nuclease-treated splicing extract) that the nuclear matrix preparation retains parts of preassembled ribonucleoprotein complexes that have the potential to function when supplemented with soluble factors (presumably other than most of the small nuclear ribonucleoproteins known to participate in splicing) present in the HeLa cell extract.

Post-transcriptional regulation of the bacteriophage Mu mom gene by the com gene product

The mom gene of bacteriophage Mu encodes a DNA modification function, the expression of which is detrimental to the host cell. This may be reflected by the tight regulation of the mom gene at the level of transcription initiation by the Mu C gene product and the host Dam function. In addition, mom expression requires the positive regulatory function Com. The com and mom genes comprise the mom operon with the com coding region partially overlapping that of mom. The degree of overlap is defined by experiments reported here. We have tested Com for activity as an antiterminator of mom transcription. We show that in the absence of Com, premature termination affects at most 33% of the transcription across the mom operon. Although no premature termination is observed in the presence of Com, these results are inconsistent with a role for Com as an antiterminator. Northern blot analysis of Com+ and Com- Mu phage mRNA confirms this conclusion. Two models for the post-transcriptional regulation of mom gene expression by Com are presented.

Isolation of a cDNA clone encoding subunit IV of human cytochrome c oxidase

We have isolated a full-length human liver cDNA clone specifying the nuclear-encoded subunit IV of the human mitochondrial respiratory chain enzyme, cytochrome c oxidase (COX; EC 1.9.3.1). The human cDNA clone is highly homologous to its bovine counterpart in the coding regions for both the mature polypeptide and the presequence, and the gene is evolving more slowly than that of any of the three mitochondrially encoded COX subunit genes. We find no preliminary evidence for tissue-specific isoforms of COX subunit IV, as Northern analysis of muscle, liver, and HeLa cell RNA shows an identically sized transcript in each cell type.

Induced mRNA stability in Bacillus subtilis

We have investigated the induced stability of mRNA encoded by the ermC gene in Bacillus subtilis. Induction of ermC gene expression by erythromycin is known to occur at the translational level. We show that this induction is accompanied by an increase in ermC mRNA half-life from about 2 min to about 40 min. Induced stabilization of ermC mRNA occurs independently of induced translation. The regulatory sequences required for stability are promoter-proximal and can confer induced stability on large mRNAs having diverse 3' ends. Translation of the ermC leader peptide and ribosome-stalling in the leader peptide sequence are necessary for induced stabilization.