MEI1, an Arabidopsis gene required for male meiosis: isolation and characterization

 The T-DNA tagged mutant gene of Arabidopsis thaliana, mei1, produces after meiosis an abnormal tetrad, consisting of five to eight microspores of varying sizes and DNA contents. Plant DNA flanking the inserted T-DNA was isolated by inverse PCR. An approximately 16-kb DNA fragment spanning the T-DNA insertion site was isolated by screening a wild-type genomic library, using the plant flanking DNA as a probe. Using RT-PCR and RNA isolated from very young flower buds, a cDNA fragment was obtained. Nucleotide sequence comparison of the cDNA and the genomic sequence in this region indicated a gene which contained two introns. The 5′ and 3′ splice sites of neither intron comply with the :GU...AG: rule. In the mutant, the T-DNA had inserted into one of the introns. The deduced sequence of the MEI1 wild-type gene, which contains 89 amino acids, shows possible similarity with the human acrosin-trypsin inhibitor, HUSI-II, and is about the same size. Two wild-type DNA fragments, both extending over the T-DNA insertion site, were introduced into mutant plants by Agrobacterium-mediated transformation and plants were selected for both hygromycin and kanamycin resistance. Several independent male-fertile transformants were obtained with one of the DNA fragments. The fragment showing complementation of the mutant phenotype indicated that the sequence with similarity to the acrosin-trypsin inhibitor is MEI1. Within the 16-kb genomic fragment two other genes were identified; one showed no overall similarity to any protein sequence in the database and the other had almost complete identity with an Arabidopsis-transcribed sequence tag with similarity to ACC oxidase. Double mutants between mei1 and qrt1 were made, permitting better characterization of the mei1 phenotype because the individual microspores continued to be held together after callose dissolution. Received: 21 April 1998 / Revision accepted: 11 June 1998     

The argininosuccinate lyase gene of Chlamydomonas reinhardtii: cloning of the cDNA and its characterization as a selectable shuttle marker

We describe the cDNA sequence for ARG7, the gene that encodes argininosuccinate lyase – a selectable nuclear marker – in Chlamydomonas reinhardtii. The 5′ end of the cDNA contains one more exon and the organisation of the mRNA is different from that predicted from the genomic sequence. When expressed under the control of the endogenous RbcS2 promoter, the 2.22-kb cDNA complements the arg7 mutation as well as the genomic DNA. A linear cDNA fragment lacking promoter sequences is also able to complement, suggesting that it could be used in promoter-trapping experiments. Despite the presence of a sequence encoding a potential chloroplast transit peptide in the cDNA the protein is not targeted to the chloroplast, nor can it complement the arg7 mutation when expressed there. By inserting a T7 bacteriophage promoter into the plasmid, a version of the cDNA which is able to complement both the C. reinhardtii arg7 mutant and the Escherichia coli argH mutant has been created. This modified Arg7 cDNA provides two advantages over the genomic DNA currently in use for gene tagging: it is shorter (6.2 kb versus 11.9 kb for pARG7.8φ3), and the selectable marker used in C. reinhardtii is the same as that used in E. coli, making plasmid rescue of the tag much more likely to succeed. Received: 2 June 1998 / Accepted: 25 September 1998     

Cloning and characterization of the gene encoding a repressible acid phosphatase (PHO1) from the methylotrophic yeast Hansenula polymorpha

A cloned cDNA, generated from mRNA isolates of phosphate-derepressed H. polymorpha cells, was identified to harbour an incomplete sequence of the coding region for a repressible acid phosphatase. The cDNA fragment served as a probe to screen a plasmid library of H. polymorpha genomic DNA. A particular clone, p606, of a 1.9-kb insert contained a complete copy of the PHO1 gene. Sequencing revealed the presence of a 1329-nucleotide open reading frame encoding a protein of 442 amino acids with a calculated M _r of 49400. The␣encoded protein has an N-terminal 17-amino-acid secretory leader sequence and seven potential N-glycosylation sites. The leader cleavage site was confirmed by N-terminal sequencing of the purified enzyme. The nucleotide sequence is 48.9% homologous, the derived amino acid sequence 36% homologous to its Saccharomyces cerevisiae counterpart. The derived amino acid sequence harbours a consensus sequence RHGXRXP, previously identified as a sequence involved in active-site formation of acid phosphatases. The PHO1 promoter and the secretion leader sequence present promising new tools for heterologous gene expression. Received: 15 January 1998 / Received revision: 2 March 1998 / Accepted: 4 March 1998     

Characterization of a Rhizobium etli chromosomal gene required for nodule development on Phaseolus vulgaris L.

A chromosomal gene, required for nodule development on Phaseolus bean, was characterized from Rhizobium etli strain TAL182. MLC640 is a Tn5 insertion mutant of TAL182 which shows decreased motility in soft TY agar and is defective in nodule development. The site of Tn5 insertion in MLC640 mapped to a 3.6-kb EcoRI chromosomal fragment. The 3.6-kb fragment was subcloned from the cosmid pUHR80 which complemented MLC640. Further subcloning and site-directed Tn5 mutagenesis localized the gene for nodule development to a 1.7-kb region within the 3.6-kb EcoRI fragment. Southern hybridization using the 3.6-kb EcoRI fragment as the probe against genomic DNA of several Rhizobium spp. indicated that this gene is conserved in different rhizobia.The authors are with the Department of Plant Molecular Physiology, University of Hawaii, 3050 Maile Way, Gimore 402, Honolulu, Hawaii 96822. USA;     

Localization of the active gene of aldolase on chromosome 16, and two aldolase A pseudogenes on chromosomes 3 and 10

Summary Southern blot analysis of human genomic DNA hybridized with a coding region aldolase A cDNA probe (600 bases) revealed four restriction fragments with EcoRI restriction enzyme: 7.8 kb, 13 kb, 17 kb and >30 kb. By human-hamster hybrid analysis (Southern technique) the principal fragments, 7.8 kb, 13 kb, >30 kb, were localized to chromosomes 10, 16 and 3 respectively. The 17-kb fragment was very weak in intensity; it co-segregated with the >30-kb fragment and is probably localized on chromosome 3 with the >30-kb fragment. Analysis of a second aldolase A labelled probe protected against S1 nuclease digestion by RNAs from different hybrid cells, indicated the presence of aldolase A mRNAs in hybrid cells containing only chromosome 16. Under the stringency conditions used, the EcoRI sequences detected by the coding region aldolase A cDNA probe did not correspond to aldolase B or C. The 7.8-kb and >30-kb EcoRI sequences, localized respectively on chromosomes 10 and 3, correspond to aldolase A pseudogenes, the 13-kb EcoRI sequence localized on chromosome 16 corresponds to the aldolase active gene. The fact that the aldolase A gene and pseudogenes are located on three different chromosomes supports the hypothesis that the pseudogenes originated from aldolase A mRNAs, copied into DNA and integrated in unrelated chromosomal loci.     

Analyses in transgenic tobacco of the promoter from a Brassica napus gene highly expressed in the stigma

A genomic clone, Pis G363, containing the Brassica napus stigma-expressed gene Pis 63-2 was isolated and sequenced. The coding region of Pis G363 does not possess introns and shows 82% identity to the nucleotide sequence of a gene from Arabidopsis BAC clone T01B08. A 2-kb promoter fragment from Pis G363 was fused to the coding sequence of the marker enzyme β-glucuronidase (GUS) and introduced into tobacco via Agrobacterium-mediated transformation. The promoter fragment directed expression of the GUS gene in the stigma of transgenic tobacco. Some transformants also showed relatively low GUS activity in the pollen. Received: 25 May 1998 / Revision received: 30 July 1998 / Accepted: 21 August 1998     

The mouse uracil-DNA glycosylase gene: isolation of cDNA and genomic clones and mapping ung to mouse chromosome 5

Uracil-DNA glycosylase (UDG) is the enzyme responsible for the first step in the base-excision repair pathway that specifically removes uracil from DNA. Here we report the isolation of the cDNA and genomic clones for the mouse uracil-DNA glycosylase gene (ung) homologous to the major placental uracil-DNA glycosylase gene (UNG) of humans. The complete characterization of the genomic organization of the mouse uracil-DNA glycosylase gene shows that the entire mRNA coding region for the 1.83-kb cDNA of the mouse ung gene is contained in an 8.2-kb SstI genomic fragment which includes six exons and five introns. The cDNA encodes a predicted uracil-DNA glycosylase (UDG) protein of 295 amino acids (33 kDa) that is highly similar to a group of UDGs that have been isolated from a wide variety of organisms. The mouse ung gene has been mapped to mouse chromosome 5 using fluorescence in situ hybridization (FISH).     

Characterization of the lys2 gene of Penicillium chrysogenum encoding α -aminoadipic acid reductase

A DNA fragment containing a gene homologous to LYS2 gene of Saccharomyces cerevisiae was cloned from a genomic DNA library of Penicillium chrysogenum AS-P-78. It encodes a protein of 1409 amino acids (Mr^ 154 859) with strong similarity to the S. cerevisiae (49.9% identity) Schizosaccharomycespombe (51.3% identity) and Candida albicans (48.12% identity) α-aminoadipate reductases and a lesser degree of identity to the amino acid-activating domains of the non-ribosomal peptide synthetases, including the α-aminoadipate-activating domain of the α-aminoadipyl-cysteinyl-valine synthetase of P. chrysogenum (12.4% identical amino acids). The lys2 gene contained one intron in the 5′-region and other in the 3′-region, as shown by comparing the nucleotide sequences of the cDNA and genomic DNA, and was transcribed as a 4.7-kb monocistronic mRNA. The lys2 gene was localized on chromosome III (7.5 Mb) in P. chrysogenum AS-P-78 and on chromosome IV (5.6 Mb) in strain P2, whereas the penicillin gene cluster is known to be located in chromosome I in both strains. The lys2-encoded protein is a member of the aminoacyladenylate-forming enzyme family with a reductase domain in its C-terminal region. Received: 26 January 1998 / Accepted: 4 May 1998     

Molecular cloning,expression and structure of the endo-1,5-α-l-arabinase gene of Aspergillus niger

Secretion of endo-1,5--l-arabinase A (ABNA) by an Aspergillus niger xylulose kinase mutant upon mycelium transfer to medium containing l-arabitol was immunochemically followed with time to monitor its induction profile. A cDNA expression library was made from polyA ⁺ RNA isolated from the induced mycelium. This library was immunochemically screened and one ABN A specific clone emerged. The corresponding abnA gene was isolated from an A. niger genomic library. Upon Southern blot analysis, a 3.1-kb HindIII fragment was identified and subcloned to result in plasmid pIM950. By means of co-tranformation using the A. niger pyrA gene as selection marker, the gene was introduced in both A. niger and A. nidulans uridine auxotrophic mutants. Prototrophic A. niger and A. nidulans transformants overproduced A. niger ABN A upon growth in medium containing sugar beet pulp as the sole carbon source, thereby establishing the identity and functionality of the cloned gene. The DNA sequence of the complete HindIII fragment was determined and the structure of the abnA gene as well as of its deduced gene product were analysed. Gene abnA contains three introns within its structural region and codes for a protein of 321 amino acids. Signal peptide processing results in a mature protein of 302 amino acids with a deduced molecular mass of 32.5 kDa. A. niger abnA is the first gene encoding an ABN to be isolated and characterized. Correspondence to: L. H. de Graaff     

Delimitation of the rice wide compatibility gene S5 n to a 40-kb DNA fragment

Wide compatibility varieties (WCVs) are a special class of rice (Oryza sativa L.) germplasm that produces hybrids with normal pollen and spikelet fertility when crossed with both indica and japonica subspecies. The wide compatibility gene S5 ⁿ has been used extensively in intersubspecific hybrid breeding programs. We previously mapped the S5 locus to a 2.2-cM genomic region between RM253 and R2349 on chromosome 6, using a population of 356 F₁ plants derived from the three-way cross 02428/Nanjing11//Balilla. In this study, a chromosome walking strategy was employed to construct a physical map covering this genomic region using these two closest markers as the starting points. A physical map consisting of six overlapping BAC clones was formed, spanning a genomic region of 540-kb in length. By analyzing recombination events from a population of 8,000 F₁ plants derived from a three-way cross based on near isogenic lines of the S5 locus, the S5 locus was localized to a DNA fragment of 40-kb in length, flanked by two shotgun subclones, 7B1 and 15D2. Sequence analysis of this fragment predicted five open reading frames, encoding xyloglucan fucosyltransferases, dnak-type molecular chaperone BiP, a putative eukaryotic aspartyl protease, and a hypothetical protein. This result will be very useful in molecular cloning of the S5 ⁿ allele and marker-assisted transferring of the wide compatibility gene in rice breeding programs.     

Cloning and molecular characterisation of the amdR controlled gatA gene of Aspergillus nidulans

Summary The gamma-amino-n-butyrate transaminase gene (gatA) of Aspergillus nidulans is one of several genes under positive control by the regulatory gene amdR (also called intA). The gatA gene has been cloned from a cosmid library by complementation of a gatA mutation. The sequence of a 2.6 kb genomic fragment containing gatA has been determined. An open reading frame of 1497 bp within this sequences is interrupted by three putative introns and predicts a protein of 55 kDa. Northern analysis confirms control of gatA RNA levels by amdR and also indicates that gatA is not strongly regulated by areA-mediated nitrogen metabolite repression. A. nidulans transformants containing multiple copies of a plasmid carrying an 88 bp fragment from the 5 untranscribed region of gatA grew poorly on substrates whose utilisation is dependent on genes controlled by amdR. This indicated titration of limiting amounts of the amdR gene product by this 88 bp fragment. Comparison of this sequence with the 5 region of the coregulated gene, amdS, reveals probable sites of action for the amdR protein.     

The gene for indole-3-acetyl-L-aspartic acid hydrolase from Enterobacter agglomerans : molecular cloning, nucleotide sequence, and expression in Escherichia coli

A 5.5-kb DNA fragment containing the indole-3-acetyl-aspartic acid (IAA-asp) hydrolase gene (iaaspH) was isolated from Enterobacter agglomerans strain GK12 using a hybridization probe based on the N-terminal amino acid sequence of the protein. The DNA sequence of a 2.4-kb region of this fragment was determined and revealed a 1311-nucleotide ORF large enough to encode the 45-kDa IAA-asp hydrolase. A 1.5-kb DNA fragment containing iaaspH was subcloned into the Escherichia coli expression plasmid pTTQ8 to yield plasmid pJCC2. Extracts of IPTG-induced E. coli cultures containing the pJCC2 recombinant plasmid showed IAA-asp hydrolase levels 5 to 10-fold higher than those in E. agglomerans extracts. Homology searches revealed that the IAA-asp hydrolase was similar to a variety of amidohydrolases. In addition, IAA-asp hydrolase showed 70% sequence identity to a putative thermostable carboxypeptidase of E. coli. Received: 12 March 1998 / Accepted: 30 March 1998     

A dinucleotide mutation in dihydrodipicolinate synthase of Nicotiana sylvestris leads to lysine overproduction

By applying a mutagenesis/selection procedure to obtain resistance to a lysine analog, S-(2-aminoethyl)l -cysteine (AEC), a lysine overproducing mutant in Nicotiana sylvestris was isolated. Amino acid analyses performed throughout plant development and of different organs of the N. sylvestris RAEC-1 mutant, revealed a developmental-dependent accumulation of free lysine. Lysine biosynthesis in the RAEC-1 mutant was enhanced due to a lysine feedback-desensitized dihydrodipicolinate synthase (DHDPS). Several molecular approaches were undertaken to identify the nucleotide change in the dhdps-r1 gene, the mutated gene coding for the lysine-desensitized enzyme. The enzyme was purified from wild-type plants for amino end microsequencing and 10 amino acids were identified. Using dicotyledon dhdps probes, a genomic fragment was cloned from an enriched library of DNA from the homozygote RAEC-1 mutant plant. A dhdps cDNA, putatively full-length, was isolated from a tobacco cDNA library. Nucleotide sequence analyses confirmed the presence of the previously identified amino end preceded by a chloroplast transit peptide sequence. Nucleotide sequence comparisons, enzymatic and immunological analyses revealed that the tobacco cDNA corresponds to a normal type of DHDPS, lysine feedback-regulated, and the genomic fragment to the mutated DHDPS, insensitive to lysine inhibition. Functional complementation of a DHDPS-deficient Escherichia coli strain was used as an expression system. Reconstruction between the cDNA and genomic fragment led to the production of a cDNA producing an insensitive form of DHDPS. Amino acid sequence comparisons pointed out, at position 104 from the first amino acid of the mature protein, the substitution of Asn to lleu which corresponds to a dinucleotide mutation. This change is unique to the dhdps-r1 gene when compared with the wild-type sequence. The identification of the nucleotide and amino acid change of the lysine-desensitized DHDPS from RAEC-1 plant opens new perspectives for the improvement of the nutritional value of crops and possibly to develop a new plant selectable marker.     

Assignment of the dipeptidylpeptidase IV (DPP4) gene to pig Chromosome 15q21

A porcine 2-kb partial dipeptidylpeptidase IV (DPP4, EC 3.4.14.5) cDNA clone and a porcine 16-kb genomic fragment containing parts of the DPP4 gene were isolated, characterized, and used as probes to map the DPP4 gene to pig Chr (Chr) 15q21 by fluorescence in situ hybridization. A two-allele RFLP was revealed for the DPP4 gene. This polymorphism was utilized in a linkage test against the erythrocyte antigen G (EAG), previously assigned to Chr 15, and the microsatellite S0088, which is linked to EAG. The linkage analyses revealed significant evidence for linkage confirming the assignment of DPP4 to Chr 15.     

Purification and characterization of recombinant spider silk expressed in Escherichia coli

A partial cDNA clone, from the 3′ end of the dragline silk gene was isolated from Nephila clavipes major ampullate glands. This clone contains a 1.7-kb insert, consisting of a repetitive coding region of 1.4-kb and a 0.3-kb nonrepetitive coding region; 1.5-kb of the 1.7-kb fragment was cloned into Escherichia coli and a␣43-kDa recombinant silk protein was expressed. Characterization of the purified protein by Western blot, amino acid composition analysis, and matrix-assisted laser desorption ionization/time-of-flight mass spectrometry confirms it to be spider dragline silk. Received: 7 April 1997 / Received revision: 24 July 1997 / Accepted: 25 August 1997     

Characterization of gene-specific DNA repair by primary cultures of rat hepatocytes

At present, almost all the information on gene-specific DNA repair in mammals comes from studies with transformed cell lines and proliferating primary cells obtained from rodents and humans. In the present study, we measured the repair of specific DNA regions in primary cultures of nondividing rat hepatocytes (parenchymal cells). DNA damage was induced by irradiating the primary cultures of hepatocytes with ultraviolet (UV) light, and the presence of cyclobutane pyrimidine dimers (CPDs) was measured by using T4 endonuclease V in the following: a 21-kb BamHI fragment containing the albumin gene, a 14-kb BamHI fragment containing the H-ras gene, and the genome overall. The frequency of CPDs in the two BamHI fragments and the genome overall were similar and ranged from 0.5 to 1.3 CPDs per 10 kb for UV doses of 5–30 J/m². However, the removal of CPDs from the DNA fragment containing the albumin gene was significantly higher than from that of the genome overall and the DNA fragment containing the H-ras gene. Within 24 hr, approximately 67% of the CPDs was removed from the DNA fragment containing the albumin gene versus less than 40% for the genome overall and the DNA fragment containing the H-ras gene. The lower repair observed for the 14-kb fragment containing the H-ras gene is probably indicative of repair of the nontranscribed region of this fragment because the H-ras gene makes up only 2.4 kb of the 14-kb fragment. Primary cultures of hepatocytes removed CPDs from the transcribed strand of albumin fragment more efficiently than from the nontranscribed strand; however, no differences were observed in the repair of the two strands of the fragment containing the H-ras gene. These results demonstrate that primary cultures of nondividing rat hepatocytes show differential repair of UV-induced DNA damage that is comparable to what has been reported for transformed, proliferating mammalian cell lines. J. Cell. Physiol. 176:314–322, 1998. © 1998 Wiley-Liss, Inc.