Isolation of matrices from maize leaf nuclei: identification of a matrix-binding site adjacent to theAdh1 gene

Nuclear matrices were isolated from maize leaves by the two conventional methods usually employed for the preparation of the corresponding structures of animal origin. It is demonstrated that functionally competent matrices, recognizing and specifically binding the MAR-containing DNA of the mousek-immunoglobulin gene may be prepared by both 2 M NaCl and LIS extractions of maize nuclei.A DNA region with a high affinity for the nuclear matrix was identified at the 5 end of the maizeAdh1-S gene, distal to the promoter region. The presence of sites of reported altered chromatin structure in this particular region is discussed. While the proximity and the cohabitation of MARs with different regulatory elements is a common feature of matrix association regions in animal systems, this is the first plant MAR identified in a region of known significance for gene regulation.     

Molecular evolutionary characterization of an Activator (Ac)-like transposable element sequence from pearl millet (Pennisetum glaucum) (Poaceae)

We present data on the evolution of the Ac/Ds family of transposable elements in select grasses (Poaceae). A defective Ac-like element was cloned from a DNA library of the grass Pennisetum glaucum (pearl millet) and its entire 4531 bp sequence has been determined. When the pearl millet Ac-like sequence is aligned with the maize Ac sequence, it is found that there is approximately 70% DNA similarity in the central region spanning most of maize Ac exon II and all of exon III. In addition, there are two smaller regions of similarity at the Ac terminii. Besides these three major structural similarities, Pennisetum Ac has two large regions, one 5 and one 3, that show little similarity to Zea Ac. Furthermore, most of the sequences corresponding to intron II in maize Ac are absent in pearl millet Ac. Kimura's evolutionary distance between the central region of maize and pearl millet Ac sequences is estimated to be 0.429±0.020 nucleotide substitutions per site. This value is not significantly different from the average number of synonymous substitutions for coding regions of the Adh1 gene between maize and pearl millet, which is 0.395±0.051 nucleotide substitutions per site. If we assume Ac and Adh1 divergence times are equivalent between maize and pearl millet, then the above calculations suggest Ac-like sequences have probably not been strongly constrained by natural selection. Conserved DNA and amino acid sequence motifs are also examined. The level of DNA sequence divergence between maize and pearl millet Ac sequences, the estimated date when maize and pearl millet diverged (25–40 million years ago), coupled with their reproductive isolation/lack of current genetic exchange, all support the theory that Ac-like sequences have not been recently introduced into pearl millet from maize. Instead, Ac-like sequences were probably present in the progenitor of maize and pearl millet and have thus existed in the grasses for at least 25 million years.     

Natural variants of pearl millet (Pennisetum typhoides) with altered levels of set II alcohol dehydrogenase activity

Two linked genes, Adh1 and Adh2, specify three sets of ADH isozymes in pearl millet. Set I is a homodimer specified by Adh1, Set III is a homodimer specified by Adh2, and Set II is a heterodimer consisting of one ADH1 subunit and one ADH2 subunit. Dry seeds exhibit only Sets I and II. Anaerobic treatment of seeds greatly increases the activity of Sets I and II and causes the Set III isozymes to be expressed. In the investigation reported here, the ADH zymogram phenotypes of 112 inbred pearl millet lines were analyzed. Two kinds of naturally occurring ADH variant strains were observed: in the low-activity variant, Set II activity is low in the dry seed, and no Set III activity is present upon anaerobic treatment. In the high-activity variant, Set II activity is high and Set III isozymes are expressed in the dry seed. The mutation in the high-activity strain appears to affect the product of Adh2 and not the product of Adh1. Dominance tests show that the mutations in both types of variant strains act in cis. These observations and linkage tests indicate that the mutations are closely linked to or at the Adh2 locus.This work was supported by a PHS National Research Service Award Training Grant in Genetics to the Biology Department of the University of Oregon.     

Isolation of a 6.2 kb genomic fragment carrying the Adh1 gene of tomato and its expression in transgenic tobacco

An 11 kb Eco RI genomic fragment containing the alcohol dehydrogenase (Adh1) gene was cloned. Cross-hybridization with three Adh2 cDNA clones suggested that the entire coding region of the Adh1 gene was contained on a 6.2 kb Xba I/Hind III subfragment. Using RFLP linkage analysis, the genomic clone was mapped on chromosome 4 between the markers TG 182 and TG 65 in a position corresponding to the Adh1 locus. To further confirm the Adh1 origin of the genomic clone, tobacco plants were transformed with the 6.2 kb Xba I/Hinb III genomic subfragment. Isozyme analysis demonstrated that in transgenic tobacco plants functional tomato specific ADH-1 homodimers were synthesized as well as heterodimers composed of tobacco and tomato subunits.     

Effects of promoter,intron and enhancer elements on transient gene expression in sugar-cane and carrot protoplasts

Various chimaeric promoter regions coupled to the uidA -glucuronidase gene were evaluated for transient expression strength following electroporation into sugar-cane (monocot) and carrot (dicot) protoplasts. Multiple enhancer elements increased expression in sugar-cane, by up to 400-fold for the artificial Emu promoter relative to the CaMV 35S promoter. The relative expression strengths of promoters varied substantially between the species. Sugar-cane also differed in some respects from previously tested species in the family Poaceae. For example, in sugar-cane the nopaline synthase and CaMV 35S promoters were of equivalent strength, and insertion of Adh1 intron 1 into the 5 transcribed region decreased expression strength.     

Cloning and characterization of the bifunctional alcohol/acetaldehyde dehydrogenase gene (<Emphasis Type="BoldItalic">adhE</Emphasis>) in <Emphasis Type="BoldItalic">Leuconostoc mesenteroides</Emphasis> isolated from kimchi

A bifunctional alcohol/acetaldehyde dehydrogenase (AdhE) gene (adhE) was cloned from Leuconostoc mesenteroides C7 (LMC7), which is the dominant lactic acid bacterium produced during heterofermentation of kimchi. The nucleotide sequence of the DNA fragment containing putative adhE, which is 2685 bp long and encodes an 886 amino acid polypeptide, exhibits 99% homology with Leu. mesenteroides sp. cremoris. The deduced AdhE comprises two conserved domains: alcohol dehydrogenase (Adh) and acetaldehyde dehydrogenase (Aldh). Moreover, two NAD-binding sites were observed, based on the presence of the GXGXXG motif. A pADHE containing the adhE gene expressed AdhE at the translational level in Escherichia coli BL21, which was at a higher level than in E. coli DH5 and E. coli JM109. The AdhE of LMC7 showed Adh and Aldh activities that, when expressed in E. coli. BL21, were 7.5 and 5.7 U mg^-1 , respectively.     

The effect of different promoter-sequences on transient expression of gus reporter gene in cultured barley (Hordeum vulgare L.) cells

The cauliflower mosaic virus 35S (35S) and the enhanced 35S (E35S) promoters fused with maize alcohol dehydrogenase (Adh1) intron1 or maize shrunken locus (sh1) intronl along with maize Adh1 and rice actin (Act1) promoters fused to their respective first introns were tested for transient expression of the E.coli -glucuronidase (gus) reporter gene in cultured barley (Hordeum vulgare L) cells. The plasmids, carrying the respective promoterintron combinations to drive the gus fused to nopaline synthase (nos) terminator, were introduced into cultured barley cells using a particle gun. The rice Act1 promoter with its first intron gave the highest expression of all promoter intron combinations studied. This was followed by the E35S promoter and no significant differences were observed between the other two promoters tested. The rice actin promoter is now being used to drive selectable marker genes to obtain stably transformed cereal cells.NRCC No. 36482     

Methylation of the Promoter Region of the RASSF1A Candidate Tumor Suppressor Gene in Primary Epithelial Tumors

The methylation of the promoter CpG island of the RASSF1A tumor suppressor gene in primary tumors of 172 Muscovites with renal cell carcinoma (RCC), breast cancer (BC), or ovarian epithelial tumors (OET) was assayed by means of methylation-specific PCR (MSP) and PCR-based methylation-sensitive restriction enzyme analysis (MSRA). The MSP, MSRA, and previous bisulfite sequencing data correlated significantly with each other (P 10^–6 for Spearman's rank correlation coefficients). By MSP and MSRA, the respective methylation frequencies of the RASSF1A promoter were 86% (25/29) and 94% (50/53) in RCC, 64% (18/28) and 78% (32/41) in BC, and 59% (17/29) and 73% (33/45) in OET. Methylation-sensitive restriction enzymes (HpaII, HhaI, Bsh1236I, AciI) increased the analysis sensitivity and made it possible to establish the methylation status for 18 CpG dinucleotides of the RASSF1A promoter region. With the MSRA data, the density of methylation of the CpG island was estimated at 72% in RCC, 63% in BC, and 58% in OET (the product of the number of CpG dinucleotides and the number of specimens with RASSF1A methylation was taken as 100%). Methylation of the RASSF1A promoter region was observed in 11–35% of the DNA specimens from the histologically normal tissue adjacent to the tumor but not in the peripheral blood DNA of 15 healthy subjects. The RASSF1A methylation frequency showed no significant correlation with the stage, grade, and metastatic potential of the tumor. On the other hand, epigenetic modification of RASSF1A was considerably more frequent than hemizygous or homozygous deletions from the RASSF1A region. These results testify that methylation of the RASSF1A promoter region takes place early in carcinogenesis and is a major mechanism inactivating RASSF1A in epithelial tumors.     

The isolation of Ant1, a transposable element from Aspergillus niger

A transposable element has been isolated from the industrially important fungus Aspergillus niger (strain N402). The element was identified as an insertion sequence within the coding region of the nitrate reductase gene. It had inserted at a TA site and appeared to have duplicated the target site upon insertion. The isolated element was found to be 4798 by in length and contained 37-bp inverted, imperfect, terminal repeats (ITRs). The sequence of the central region of the element revealed an open reading frame (designated ORF1) which showed similarity, at the amino acid level, to the transposase of the Tc1/mariner class of DNA transposons. Another sequence within the central region of the element showed similarity to the 3 coding and downstream untranslated region of the amyA gene of A. niger. Sequence homology and structural features indicate that this element, which has been named Ant1 (A. niger transposon 1), is related to the Tc1/mariner group of DNA transposons. Ant1 is apparently present as a single copy in strain N402 of A. niger.     

Methylation Profile of Several Tumor Suppressor Genes in Non-Small-Cell Lung Cancer

Multiplex methylation-sensitive PCR was employed in studying the methylation of CpG islands in the RB1, p16/CDKN2A, p15/CDKN2B, p14/ARF, CDH1, HIC1, and N33 5 regions in non-small cell lung cancer (51 tumors). Methylation was observed for the two suppressor genes involved in controlling the cell cycle through the Cdk–Rb–E2F signaling pathway, RB1 (10/51, 19%) and p16 (20/51, 39%). The highest methylation frequencies were established for CDH1 (72%) and HIC1 (82%). The CpG islands of p14 and p15 proved to be nonmethylated. At least one gene was methylated in 90% (46/51) tumors and no gene, in 10% (5/51) tumors. In addition, the genes were tested for methylation in peripheral blood lymphocytes of healthy subjects. Methylation frequency significantly differed between tumors and normal cells in the case of RB1, p16, CDH1, HIC1, and N33. Gene methylation frequency was tested for association with histological type of the tumor and stage of tumor progression. Methylation index of a panel of tumor suppressor genes was established for groups of tumors varying in clinical and morphological parameters.     

Genetic structure and domains of DNA polymerase III of Bacillus subtilis

Summary We have determined the nucleotide sequence of the polC gene of Bacillus subtilis which codes for DNA polymerase III. Our recent analysis has revealed that the gene comprises 4311 nucleotides, from the start to the stop codon, 306 nucleotides more than we reported earlier. The plasmid reported by us and by N.C. Brown's laboratory contained a sequence at the end of the gene which is not related to the polC region of B. subtilis. We have isolated the rest of the gene, the sequence of which is presented in this paper. The new stop codon is followed by a hyphenated palindromic sequence of 13 nucleotides. The C-terminus' of the coding region contains the novel mutation, dnaF, which results in a defect in the initiation of replication due to a change in the codon TCC to TTC (serine to phenylalanine). The hypermutator mutation mut-1 is due to two point mutations in the 3 to 5 exonuclease domain, the proof reading function. The codon changes are GGA to GAA (glycine to glutamic acid) and AGC to AAC (serine to asparagine). The elongation defective mutation, polC26, affecting the catalytic site that adds nucleotides to the growing chain, is due to a change in the codon GTC to GAC (valine to aspartic acid). It is separated from the mutation reported earlier, azp-12, by 306 nucleotides. Knowing the locations of the mutational sites allowed us to deduce the domains of the gene and the enzyme it encodes, and permitted us to present a precise map of the gene at the molecular level.Abbreviations HPUra p-hydroxyphenyl azouracil - nt nucleotide - PCR polymerase chain reaction     

Conservation and change of the developmentally crucial fushi tarazu gene in Drosophila

Summary We have studied the evolutionary changes occurring in the noncoding regions around the developmentally important fushi tarazu (ftz) gene in a total of 11 species in the genus Drosophila. Previous molecular developmental studies have identified DNA elements both 3 and 5 to the coding region which are important in proper regulation of expression of the Drosophila melanogaster ftz gene. We show here that these same elements are the most evolutionarily conserved regions in the vicinity of the gene homologs. Parts of some control elements are more conserved than exonic sequences. Not only is there sequence conservation, but the relative position, orientation, and distances among the control elements remain conserved. One quite significant difference does exist between the two major subgenera studied, Sophophora and Drosophila: namely, an inversion of the ftz unit with respect to other genes in the Antennapedia complex, ANT-C. As a comparison, we applied similar analysis to a housekeeping gene-rosy (ry), or Xdh. In contrast, DNA sequences 5 to the ry coding region revealed little evolutionary conservation. These studies bear out the proposition that functionally important DNA sequences remain more conserved through evolutionary time than do less functionally important sequences. This proposition could be tested in the present case because we could predict a priori from the developmental studies which DNA regions should be most conserved.     

Nucleotide sequence of the region encompassing the int gene of a cryptic prophage and the dna Y gene flanked by a curved DNA sequence of Escherichia coli K12

Summary The nucleotide sequence of a 2.5 kb region encompassing a curved DNA segment (BENT-9) randomly cloned from the total Escherichia coli chromosome was determined. This region was found to contain the dnaY gene encoding a transfer RNA. The curved DNA structure was demonstrated to be located just upstream of the dnaY promoter. The results of sequencing further revealed that the int gene of a cryptic prophage, qsr, which has been shown to be present in the E. coli genome, is located next to the dnaY gene.     

Partial conservation of the 5′ ndhE-psaC-ndhD 3′ gene arrangement of chloroplasts in the cyanobacterium Synechocystis sp. PCC 6803: implications for NDH-D function in cyanobacteria and chloroplasts

The psaC gene, which encodes the 8.9 kDa iron-sulfur containing subunit of Photosystem I, has been sequenced from Synechocystis sp. PCC 6803 and shows greater similarity to reported plant sequences than other cyanobacterial psaC sequences. The deduced amino acid sequence of the protein encoded by the Synechocystis psaC gene is identical to the tobacco PSA-C sequence. In plants psaC is located in the small single-copy region of the chloroplast genome between two genes (designated ndhE and ndhD) with similarity to genes encoding subunits of the mitochondrial NADH Dehydrogenase Complex I. The 5 ndhE-psaC-ndhD3 gene arrangement of higher plants is only partially conserved in Synechocystis. An open reading frame (ORF) upstream of the Synechocystis psaC gene has 85% identity to the tobacco ndhE gene. Downstream of psaC there is a 273 bp ORF with 48% identity to the 5 portion of the tobacco ndhD gene (1527 bp). psaC, ndhE and the region of similarity to ndhD are present in a single copy in the Synechocystis genome. Part of the wheat ndhD gene was sequenced and used as a probe for the presence of the 3 portion of the ndhD gene. The wheat ndhD probe did not hybridize to Synechocystis or Anabaena sp. PCC 7120 genomic DNA, but did hybridize to Oenothera chloroplast DNA. These results indicate the complete ndhD gene is absent in two cyanobacteria, and raises the question of what role, if any, the ndhD gene product plays in the facultative heterotroph Synechocystis sp. PCC 6803.     

Hypomethylated sequences: Characterization of the duplicate soybean genome

Soybean is believed to be a diploidized tetraploid generated from an allotetraploid ancestor. In this study, we used hypomethylated genomic DNA as a source of probes to investigate the genomic structure and methylation patterns of duplicated sequences. Forty-five genomic clones from Phaseolus vulgaris and 664 genomic clones from Glycine max were used to examine the duplicated regions in the soybean genome. Southern analysis of genomic DNA using probes from both sources revealed that greater than 15% of the hypomethylated genomic regions were only present once in the soybean genome. The remaining ca. 85% of the hypomethylated regions comprise duplicated or middle repetitive DNA sequences. If only the ratio of single to duplicate probe patterns is considered, it appears that 25% of the single-copy sequences have been lost. By using a subset of probes that only detected duplicated sequences, we examined the methylation status of the homeologous genomes with the restriction enzymes MspI and HpaII. We found that in all cases both copies of these regions were hypomethylated, although there were examples of low-level methylation. It appears that duplicate sequences are being eliminated in the diploidization process. Our data reveal no evidence that duplicated sequences are being silenced by inactivation correlated with methylation patterns.     

Cloning and expression of the genes for xylose isomerase and xylulokinase from Klebsiella pneumoniae 1033 in Escherichia coli K12

Summary The genes xy1A and xy1B were cloned together with their promoter region from the chromosome of Klehsiella pneumoniae var. aerogenes 1033 and the DNA sequence (3225 bp) was determined. The gene xy1A encodes the enzyme xylose isomerase (XI or XylA) consisting of 440 amino acids (calculated M_r of 49 793). The gene xy1B encodes the enzyme xylulokinase (XK or Xy1B) with a calculated M, of 51 783 (483 amino acids). The two genes successfully complemented xy1 mutants of Escherichia coli K12, but no gene dosage effect was detected. E. coli wild-type cells which harbored plasmids with the intact xylA _Kp 5 upstream region in high copy number (but lacking an active xy1B gene on the plasmids) were phenotypically xylose-negative and xylose isomerase and xylulokinase activities were drastically diminished. Deletion of 5 upstream regions of xy1A on these plasmids and their substitution by a lac promoter resulted in a xylose-positive phenotype. This also resulted in overproduction of plasmid-encoded xylose isomerase and xylulokinase activities in recombinant E. coli cells.