The Isolation of differentially expressed mRNA sequences by selective amplification via biotin and restriction-mediated enrichment

Molecular analysis of development frequently implies the isolation and characterization of genes with specific spatial and temporal expression patterns. Several methods have been developed to identify such DNA sequences. The most comprehensive technique involves the genomewide probing of DNA sequence microarrays with mRNA sequences. However, at present this technology is limited to the few organisms for which the entire genome has been sequenced. Here, we describe a subtractive hybridization technique, called selective amplification via biotin and restriction-mediated enrichment (SABRE), which allows the selective amplification of cDNA fragments representing differentially expressed mRNA species. The method involves the competitive hybridization of an excess of driver cDNA fragments (D) to a trace of tester cDNA fragments (T), and the subsequent purification of tester homohybrids (in which both strands are contributed by the tester cDNA). After competitive hybridization, cDNA fragments that are more abundant in the tester than in the driver are enriched in the tester homohybrids. However, as the fraction of tester homohybrids is very small [T(2)/(D + T)(2)], their purification requires highly efficient procedures. In SABRE, the isolation of tester homohybrids is afforded by a combination of three successive steps: removal of biotinylated terminal sequences from most of the heterohybrids by S1 nuclease digestion, capture of biotinylated hybrids with streptavidin-coated paramagnetic beads, and specific release of homohybrids from the beads by restriction nuclease digestion. If several rounds of SABRE selection are performed in series, even relatively rare differentially expressed mRNA sequences may result in the production of predominant cDNA fragments in the final tester homohybrid population.     

Certain properties of transcribed fragments of the mouse genome cloned in plasmid pBR322

Clones of total mouse DNA efficiently hybridized with mRNA (or cDNA) were selected by colony hybridization technique. The majority of selected fragments demonstrate hybridization with cDNA, dsRNA-B (isolated from pre-mRNA) and oligo(dT). The data obtained indicate that the base sequences hybridizing to these test-probes are contiguous within several individual cloned restriction DNA fragments. At least in two cases sequences hybridizing with cDNA belong to repetitive fraction of the mouse genome (presumptive repetitive structural genes). They are transcribed effectively, and respective mRNAs of abundant type. Two other clones contain structural genes which are expressed into mRNAs of non-abundant type.     

Location of the structural genes for glycoproteins gD and gE and for other polypeptides in the S component of herpes simplex virus type 1 DNA.

To map the structural genes for the gD and gE polypeptides and for other viral products encoded in the S component of herpes simplex virus type 1 DNA, we selected mRNAs capable of hybridizing to cloned viral DNA fragments and translated the mRNAs in vitro to determine which polypeptides were encoded therein. The gD and gE polypeptides were identified by immunoprecipitation with appropriate monoclonal and monospecific antibodies, whereas the other polypeptides were characterized only by their electrophoretic mobilities in polyacrylamide gels. We found that gD mRNA hybridized to a single SacI subfragment of BamHI fragment J, whereas gE mRNA hybridized to an adjacent SacI subfragment of BamHI fragment J and also to BamHI fragment X. These and other results permit the conclusion that the structural gene for gD is located between map coordinates 0.911 and 0.924, and the gene for gE is between map coordinates 0.924 and 0.951. We also found that mRNAs for polypeptides of 55,000, 42,000, 33,000, and 22,000 molecular weight hybridized to DNA fragments spanning the regions from map coordinates 0.911 to 0.924, 0.897 to 0.911, 0.939 to 0.965, and 0.939 to 0.965, respectively. Finally, in accord with the results of others, we found that mRNA for a 68,000-molecular-weight polypeptide hybridized to the two noncontiguous BamHI fragments N and Z, which share a reiterated DNA sequence.     

The isolation of structural genes from libraries of eucaryotic DNA

We present a procedure for eucaryotic structural gene isolation which involves the construction and screening of cloned libraries of genomic DNA. Large random DNA fragments are joined to phage lambda vectors by using synthetic DNA linkers. The recombinant molecules are packaged into viable phage particles in vitro and amplified to establish a permanent library. We isolated structural genes together with their associated sequences from three libraries constructed from Drosophila, silkmoth and rabbit genomic DNA. In particular, we obtained a large number of phage recombinants bearing the chorion gene sequence from the silkmoth library and several independent clones of β-globin genes from the rabbit library. Restriction mapping and hybridization studies reveal the presence of closely linked β-globin genes.     

Selection and some properties of recombinant clones of lambda bacteriophage containing genes of Drosophila melanogaster.

The lambdagt clones containing fragments of the Drosophila melanogaster genome were prepared and characterized by hybridization of their DNA with (I) lambdagt-cRNA; (2) lambdaC-cRNA; (3) Dm-cRNA; (4) the mRNA of D.melanogaster culture cells and (5) the stable cytoplasmic poly (A) RNA from the same source. The technique for a simple selection of hybrid clones is described. The hybridization with mRNA allows one to select the clones containing structural genes of D.melanogaster. It was found that in all cases when the clone contains the structural gene it also contains the reiterated base sequences of the D.melanogaster genome. Several clones containing D. melanogaster DNA fragments with a size of (2-4)x1O6 daltons hybridizing with a relatively large portion of mRNA were selected for further analysis.     

Isolation and nucleotide sequence of the methanol dehydrogenase structural gene from Paracoccus denitrificans.

A genomic clone bank of Paracoccus denitrificans DNA has been constructed in the expression vector set pEX1, pEX2, and pEX3. Screening of this clone bank with antibodies raised against P. denitrificans methanol dehydrogenase resulted in the isolation of a clone, pNH3, that synthesized methanol dehydrogenase cross-reactive proteins. The nucleotide sequence of the P. denitrificans DNA fragment inserted in this clone has been determined and shown to contain the full methanol dehydrogenase structural gene. DNA cross-hybridization was found with DNA fragments which have been reported to contain the methanol dehydrogenase structural genes from Methylobacterium sp. strain AM1 and Methylobacterium organophilum.     

Isolation and characterization of maize genes coding for zein proteins of the 21000 dalton size class

Cloning in lambda gt WES phage of EcoRI fragments from maize seedlings DNA led to the isolation of four fragments containing genes coding for 21000 dalton zein proteins. The zein genes, identified by electron microscopic analysis, do not contain intervening sequences detectable by this method. The flanking sequences were analyzed by restriction sites mapping and hybridization and showed areas of homology between each other and with sequences surrounding a previously isolated gene of the 19000 dalton zein class.     

Organization of human δ- and β-globin genes in cellular DNA and the presence of intragenic inserts

We have analyzed human cellular DNA for its δ- and β-globin gene sequence content by separation of restriction enzyme fragments by agarose gel electrophoresis; transfer of the DNA fragments to nitrocellulose filters; hybridization of filters with ³²P-β-globin cDNA; and analysis by autoradiography. A short cDNA has been used to identify specifically the 3′ end of the genes and to orient the fragments. A comparison of the globin gene fragments generated by normal and Lepore DNA has been used to distinguish fragments representing DNA sequences between the δ and β genes and those containing sequences flanking either 5′ to the δ gene or 3′ to the β gene. The results indicate that unique restriction fragments are presented in normal DNA and absent in Lepore DNA, and allow preliminary ordering of these fragments on a restriction enzyme map. In addition, the Lepore, δ- and β-globin genes have been found to contain at least one inserted nucleotide sequence of about 1000 bases which is not represented in mature globin mRNA.     

Nucleoprotein hybridization: a method for isolating specific genes as high molecular weight chromatin

We describe a new technique designed to isolate specific eukaryotic genes as native oligonucleosome fragments. The isolation method consists of hybridization of single-stranded termini of chromatin restriction fragments to complementary mercurated DNA probes, followed by isolation of the hybrids by sulfhydryl-Sepharose chromatography. SV40 minichromosomes were used to test the effectiveness of the technique. About 80% of KpnI- or BamHI-restricted and lambda exonuclease treated SV40 minichromosomes hybridized to an appropriate DNA probe after a 12-h hybridization reaction under mild conditions (0.1 M aqueous salt, 37 degrees C, pH 8). When the restricted minichromosomes were mixed with a 15-fold excess of "background" chromatin from sea urchin embryos, nucleoprotein hybridization was able to reisolate the SV40 chromatin to 88% purity with a 63% yield. This represented a 115-fold enrichment of specific genes as chromatin. Results of electron microscopy and polyacrylamide gel electrophoresis indicate that the hybridized SV40 chromatin has not lost the major chromosomal proteins characteristic of SV40 nor acquired significant amounts of protein due to exchange with background chromatin. Our experimental results show that it is currently possible to isolate repeated genes from higher eukaryotes for structural and biochemical study of the proteins involved with gene regulation.     

PCR cloning of a protein-coding part of the thioredoxin gene fromStreptomyces aureofaciens

Summary The method of two-stage half-specific amplification was described and successfully used in the isolation of the protein-coding part of the thioredoxin gene from Streptomyces aureofaciens BMK. The efficiency of a new PCR modification for the specific amplification of the target DNA fragments (genes) with unknown sequences is compared with the used half-specific PCR. The determined target sequence demonstrates the highest homology with the thioredoxin genes from Corynebacterium nephridii C-1 and Anabaena 7119.     

Site-specific DNA splicing: a general procedure for the creation of a restriction site at a predetermined position in a DNA sequence

A method is described for creating any of a wide array of restriction sites at a predetermined position in a known DNA sequence. The method utilizes the exonuclease activity of BAL 31 and a specially designed bifunctional oligodeoxynucleotide linker. The desired restriction site is generated when the linker is ligated to those BAL 31-digested DNA fragments which end with the target sequence. The proper ligation product is then identified by a highly specific hybridization procedure. The method is versatile and specific and is especially useful in the isolation of functional elements of a gene.     

Genes from the cyanobacterium Agmenellum quadruplicatum isolated by complementation: characterization and production of merodiploids

The isolation of several biosynthetic genes from a cyanobacterium, Agmenellum quadruplicatum, by complementation of auxotrophic mutations in Escherichia coli, and their partial characterization, is described. Although our search for such genes has not been exhaustive, it appears that complementation of E. coli mutations may be of limited utility for the identification and/or isolation of cyanobacterial genes. Despite some overlap in the complementation abilities of these isolated cyanobacterial DNA fragments, the genes that we have studied in some detail are not located in operons. We have used mutagenized versions of these cyanobacterial DNA fragments to produce mutant phenotypes in the cyanobacterium, but clean auxotrophs were not obtained. Complementation of these mutant phenotypes can be obtained when the appropriate wild-type DNA fragment is introduced into the cyanobacterium on a shuttle vector. Recombination between two copies of a cyanobacterial gene occurs at high frequency in the cyanobacterium.     

Rapid identification of DNA fragments containing promoters for RNA polymerase II

We describe a direct procedure for screening genomic recombinant DNA libraries or restriction fragments of cloned DNA regions for RNA polymerase II promoters. Cellular polyadenylated mRNA is chemically de-capped by beta-elimination reaction and enzymatically re-capped with [alpha-32P]GTP by vaccinia guanylyl transferase. Since this enzyme only accepts di- or triphosphorylated 5' termini as a substrate, the mRNAs are labeled exclusively at the first nucleotide, irrespective of whether the mRNA was intact or fragmented before in vitro capping. By using in vitro-capped mRNA as a hybridization probe, recombinant DNA molecules or restriction fragments that carry a cap site (and thus likely an RNA polymerase II promoter) can directly be identified. Here, we demonstrate the applicability of this procedure by the isolation and characterization of several genomic DNA clones containing RNA polymerase II promoter sequences, that are highly active in liver.     

Hemoglobin switching in sheep. Cloning and characterization of the beta A and beta-like embryonic globin genes from genomic DNA

Genomic DNA from a fetal sheep homozygous for the beta A gene was used to construct a library of one million cloned DNA fragments using the bacteriophage vector, Charon 4A. Screening of 150,000 plaques from this library using radioactive beta-globin gene sequences resulted in the isolation of two recombinant bacteriophage containing globin genes. One of these, S beta AG-21, contains the complete adult beta A-globin gene as demonstrated by hybridization and restriction endonuclease analysis. In common with adult globin genes from other species, the beta A gene contains small (105 base pairs) and large (900 base pairs) intervening sequences. The second recombinant bacteriophage, SG-4, contains a complete embryonic beta-like globin gene which is expressed in the sheep embryo as demonstrated by hybridization analysis with cDNA made from sheep embryonic globin mRNA. Although differing in its restriction endonuclease map from the adult beta-globin genes, SG-4 appears to contain a large intervening sequence of at least 750 base pairs in length. Finally, preliminary evidence is discussed which indicates that a Pvu II site just 5' to the Cap site may be a common feature of sheep globin genes.