The Ha locus of wheat: identification of a polymorphic region for tracing grain hardness in crosses.

The grain softness proteins or friabilins are known to be composed of three main components: puroindoline a, puroindoline b, and GSP-1. cDNAs for GSP-1 have previously been mapped to group-5 chromosomes and their location on chromosome 5D is closely linked to the grain hardness (Ha) locus of hexaploid wheat. A genomic DNA clone containing the GSP-1 gene (wGSP1-A1) from hexaploid wheat has been identified by fluorescent in situ hybridization as having originated from the distal end of the short arm of chromosome 5A. A genomic clone containing the gene (wGSP1-D1) was also isolated from Aegilops tauschii, the donor of the D genome to bread wheat. There are no introns in the GSP-1 genes, and there is high sequence identity between wGSP1-A1 and wGSP1-D1 up to 1 kb 5' and 300 bp 3' to wGSP1-D1. However, regions further upstream and downstream of wGSP1-D1 share no significant sequence identity to corresponding sequences in wGSP1-A1. These regions therefore identified potentially valuable sequences for tracing the Ha locus through assaying polymorphic DNA sequences. The sequence from 300 to 500 bp 3' to wGSP1-D1 (wGSP1-D13) was mapped to the Ha locus in a mapping population. wGSP1-D13 was also tightly linked to genes for puroindoline a and puroindoline b which have been previously mapped to be at the Ha locus. In addition wGSP1-D13 was used to detect RFLPs between near isogenic soft and hard Falcon lines and in a random selection of soft and hard wheats.     

GLI3 encodes a 190-kilodalton protein with multiple regions of GLI similarity.

The GLI oncogene, discovered by virtue of its amplification in human tumors, encodes a sequence-specific DNA-binding protein containing five zinc fingers. We have now characterized one member of a family of GLI-related zinc finger genes. A previously identified fragment of GLI3 genomic DNA was used to localize GLI3 to chromosome 7p13 and to isolate cDNA clones. Sequence analysis of these clones and identification of the GLI3 protein by using polyclonal antisera demonstrated that GLI3 encodes a protein of 1,596 amino acids and an apparent molecular mass of 190 kilodaltons. Amino acid sequence comparison with GLI demonstrated seven regions of similarity (53 to 88% identity), with the zinc fingers representing the most similar region. Furthermore, when produced in vitro, the GLI3 protein bound specifically to genomic DNA fragments containing GLI-binding sites. Amino acid sequence comparison with the product of another member of the GLI family, the Drosophila segment polarity gene cubitus interruptus Dominant, revealed additional similarity that was not shared with GLI. These studies suggest that the GLI-related genes encode a family of DNA-binding proteins with related target sequence specificities. In addition, sequence similarity aside from the zinc finger region suggests that other aspects of function are shared among the members of this gene family.     

Analysis of genes for 5S rRNA from the cricket, Acheta domesticus: two classes of repeating units

To examine the modulation of 5S rRNA gene activity during development in the cricket, Acheta domesticus, 5S X DNA was isolated from a lambda Charon 4 genomic library and characterized. Southern blot analysis of cloned A. domesticus genomic DNA revealed that restriction fragments of 3.0 and 2.1 kb represent two size classes of 5S X DNA repeating units; over 90% of the repeats measure 3.0 kb. Restriction analysis of two 5S X DNA clones suggests that the 2.1-kb repeats are not randomly interspersed within clusters of the larger 3.0-kb repeating units. Heteroduplex and restriction mapping of several clones indicate that the spacers of both repeating units account for their unusual length. The major difference between the two classes of repeats may lie in 0.9-kb spacer sequences to the 3.0-kb repeats.     

Induction of thaumatin‐like proteins (TLPs) in Rhizoctonia solani‐infected rice and characterization of two new cDNA clones

Thaumatin‐like proteins (TLPs) were shown to be induced in rice plants (cv. IR58) that were infected with the sheath blight fungus, Rhizoctonia solani . Western blot analysis revealed the presence of two TLPs with sizes of 25 and 24 kDa which are different from a previously reported TLP with a size of 15.6 kDa from rice plants infiltrated with the non‐pathogenic bacterium, Pseudomonas syringae pv. syringae . By probing a cDNA expression library prepared from RNA isolated from R. solani ‐infected rice plants with a TLP antibody, several putative TLP cDNA clones were isolated and sequenced. The cDNA clones appeared to be derived from two different genes which shared only 77% sequence identity with each other and a lower percentage of sequence identity with the previously reported TLP cDNA clone. Southern blot analysis with the two TLP cDNAs revealed different rice genomic DNA fragments. Northern blot analysis also confirmed that a 1.1‐kb RNA detectable by the TLP cDNA inserts was induced by fungal infection. Thus rice TLPs are encoded by a family of at least three genes which are differentially expressed in responses to bacterial or fungal pathogens.     

Labile DNA sequences in flax identified by combined sample representational difference analysis (csRDA)

Flax (Linum usitatissimum) has a genome in which changes have been associated with environmental factors. The inbred flax variety, Stormont Cirrus (Pl), served as the parent, and several lines (termed genotrophs) were derived from this parent. The phenotypes of the genotrophs were stable in a number of different growth environments, unlike the original Pl line in which changes associated with environmental factors continued to occur. These genotrophs differed from the original line in a number of characteristics, but the only known phenotypic characteristic that is shared by all the genotrophs and different from the parental, Pl, line is the lack of changes associated with the original environmental factors. However, some of these genotrophs have changed in both phenotype and nuclear DNA subsequent to their original growth and differentiation from Pl. Representational difference analysis (RDA) has been used to identify differences between Pl and all the genotrophs in an attempt to identify the loci controlling these aspects of plasticity. Subtractions between Pl DNA as a tester (target) and one of the genotrophs (individual RDA) or a mixture of different types of genotroph (L6, S6, C2, and LH) DNAs as a driver were done (combined sample RDA; csRDA). In addition, contrary RDA, where of the genotroph DNA was used as a tester and Pl DNA as a driver, was also executed. Three difference clones (163-4-2, 123-5-2, and 163-13), from 74 primary clones obtained after three rounds of subtractions with Pl DNA as tester were further characterized. In addition, 2 difference products (213-r1 and 213-r9) were characterized from contrary RDA. The clones 163-4-2 and 163-13 from the csRDA showed polymorphisms between Pl and all the genotrophs when PCR was done with primers derived from sequences of the clones, but only the clone 163-13 polymorphism was confirmed by Southern blot analysis. Four of 5 clones (163-4-2, 123-5-2, 163-13 and 213-r9) that have been characterized appear to be associated with structural changes in the DNA. From the contrary csRDA, it was observed that no clones could be recovered from subtractions between a mixture of genotrophs as a tester and Pl as a driver, and several possible explanations have been proposed.     

Sequence and organization of 5S ribosomal RNA-encoding genes of Arabidopsis thaliana.

We have isolated a genomic clone containing Arabidopsis thaliana 5S ribosomal RNA (rRNA)-encoding genes (rDNA) by screening an A. thaliana library with a 5S rDNA probe from flax. The clone isolated contains seven repeat units of 497 bp, plus 11 kb of flanking genomic sequence at one border. Sequencing of individual subcloned repeat units shows that the sequence of the 5S rRNA coding region is very similar to that reported for other flowering plants. Four A. thaliana ecotypes were found to contain approx. 1000 copies of 5S rDNA per haploid genome. Southern-blot analysis of genomic DNA indicates that 5S rDNA occurs in long tandem arrays, and shows the presence of numerous restriction-site polymorphisms among the six ecotypes studied.     

The ubiquitin-encoding multigene family of flax, Linum usitatissimum.

Ubiquitin (Ubq), a 76-amino acid (aa) protein, is found in all eukaryotic organisms and is one of the most conserved proteins so far studied. It is implicated in many cellular processes. The Ubq-encoding genes (ubq) are generally present as a multigene family. In flax, we have estimated that this multigene family contains at the most ten members. The initial flax ubq sequences were isolated from a flax genomic library in lambda EMBL4 using a heterologous Arabidopsis thaliana ubq probe. An 916-bp fragment from one of the phage clones was subcloned and sequenced. The aa sequence derived from the nucleotide sequence of this fragment is identical to that of other plant Ubqs. This fragment was then used to isolate additional flax ubq clones. In all, eleven phage lambda clones, which represent six members of the gene family, were restriction-mapped and characterized. These six members are represented as three monomers, three poly-Ubqs, one hexamer and two tetramers. They can be present at either a single locus (two of the monomers and one of the poly-Ubqs) or at two loci (the remaining three genes). The other four members of the family are yet to be cloned and characterized.     

Genetics and expression of two pectinesterase genes in Valencia orange

The genetics and expression of pectinesterase (PE) genes were examined in Valencia orange. Degenerate primers based on partial amino acid sequence of a 36 kDa PE protein isolated from juice vesicles were used to amplify a 350 bp DNA fragment from cDNA prepared from juice vesicle total RNA. Two groups of 350 bp PE clones with 66% sequence identity were isolated. A clone from each group was used to screen a Valencia orange genomic DNA λ library. Two different lambda clones that contained complete PE coding sequence (CsPME1 and CsPME3) and a third lambda clone that contained partial PE sequence (CsPME2) were characterized. The CsPME1 gene contained two exons (1063 and 689 bp) interrupted by a 1452 bp intron, whereas the CsPME3 gene had two exons (844 and 686 bp) interrupted by a 771 bp intron. CsPME1 shared significant sequence similarity with the partial clone CsPME2, including the entire cloned region of the first exon, a large region in the 5′ portion of the intron and the 3′ portion of the second exon, but the 3′ portion of the intron and the 5′ portion of the second exon were dissimilar. Southern blots suggested that Valencia orange has two genes within each PE group. Full-length cDNA clones that shared 99% sequence identity with CsPME1 and CsPME3 were isolated. Both groups of PE genes were differentially expressed in tissues of Valencia orange, and in addition CsPME3 appeared to be ethylene-regulated. The deduced proteins of PE cDNA clones CsPME1 (63.5 kDa) and CsPME3 (56.3 kDa) were considerably larger than the PE protein we isolated from Valencia orange juice vesicles and also other mature plant PE proteins. The estimated size of group I (2.2 kb) and group II (2.0 kb) PE mRNAs also predicted a larger protein than was isolated from juice vesicles. Alignment of the mature tomato and mung bean PE proteins, the most N-terminal sequence we obtained from polypeptides derived from the 36 kDa PE isolated from juice vesicles and the deduced amino acid sequences of plant PE cDNA clones suggest that a post-translational cleavage event separates the variable N-terminus from the more conserved C-terminal domain of the mature PE protein.     

RAPD polymorphisms detected among the flax genotrophs

The occurrence of environmentally induced heritable changes in certain flax varieties has been shown to be accompanied by changes in the genomic DNA. A large difference in nuclear DNA contents has been characterized between the extreme types, termed genotrophs. The genomic variation between a series of genotrophs has been studied by the polymerase chain reaction using random arbitrary oligonucleotide primers. A total of 320 primers were used in the reactions and 253 polymorphic bands observed. The polymorphic bands were derived from all parts of the genome, namely the highly repetitive, middle-repetitive and low-copy-number sequences. They were also shown to be distributed thoughout the genome. In one group of genotrophs, all of which were induced by temperature treatment, there was a clustering of the polymorphisms with a high degree of shared polymorphisms. These results are in agreement with earlier studies showing that a dispersed fraction of the genome is susceptible to variation when environmentally induced heritable changes occur.     

Human DNA sequences isolated with an immunoglobulin switch region probe: sequence,chromosomal localization,and restriction fragment length polymorphisms

Summary We have screened a human genomic DNA library with an immunoglobulin (Ig) derived switch (S) region specific probe for homologous sequences. Five Ig independent phage clones were isolated and characterized. The S sequence homologous DNA fragments are short compared to the S region sequences. Ig independent S sequences are flanked by highly repetitive DNA elements and perfect inverted repeats can be demonstrated in their close vicinity. Using subclones of S homologous sequences restriction fragment length polymorphisms were shown within DNA of different T cell leukemias. Burkitt lyphhomas, lymphoblastoid cell lines, and DNA of healthy individuals. One of the five clones isolated with the S region probe was evidently localized to chromosome 2 and/or 40 and showed a complex hybridisation pattern with several different human DNAs. S homologous sequences of another clone are most likely localized on chromosome 1. It is possible that these Ig indenpendent S sequences have arisen by amplification and transposition and that they are involved in genetic recombination.     

Isolation and characterization of cDNAs encoding oat 12S globulin mRNAs

Summary A cDNA library was made from poly(A⁺) RNA isolated from developing oat seeds, and oat globulin cDNA clones were identified by hybridization with synthetic oligonucleotides. Globulin clones were characterized by restriction enzyme mapping and cross-hybridization analysis. Based on these comparisons, four classes of globulin clones were distinguished. These clones hybridized to multiple DNA fragments in restriction enzyme digests of oat genomic DNA, indicating that the genes exist in a multigene family. The nucleotide sequence of one of the globulin cDNA clones was determined. The amino acid sequence derived from the DNA sequence verified its identity as an oat globulin and confirmed that the protein is synthesized as a precursor similar to legume 11S storage globulins. The basic polypeptide encoded at the 3 end of the mRNA was found to be homologous to the basic polypeptides of other 11S seed globulins.Abbreviations ds double stranded - kb kilobase Author to whom correspondence should be addressed. Journal paper number 10460 of the Purdue Agricultural Experimental Station.     

Metagenomic analysis of novel lignocellulose-degrading enzymes from higher termite guts inhabiting microbes

A metagenomic fosmid library was constructed from genomic DNA isolated from the microbial community residing in hindguts of a wood-feeding higher termite (Microcerotermes sp.) collected in Thailand. The library was screened for clones expressing lignocellulolytic activities. Fourteen independent active clones (2 cellulases and 12 xylanases) were obtained by functional screening at pH 10.0. Analysis of shotgun-cloning and pyrosequencing data revealed six ORFs, which shared less than 59% identity and 73% similarity of their amino acid sequences with known cellulases and xylanases. Conserved domain analysis of these ORFs revealed a cellulase belonging to the glycoside hydrolase family 5, whereas the other five xylanases showed significant identity to diverse families including families 8, 10, and 11. Interestingly, one fosmid clone was isolated carrying three contiguous xylanase genes that may comprise a xylanosome operon. The enzymes with the highest activities at alkaline pH from the initial activity screening were characterized biochemically. These enzymes showed a broad range of enzyme activities from pH 5.0 to 10.0, with pH optimal of 8.0 retaining more than 70% of their respective activities at pH 9.0. The optimal temperatures of these enzymes ranged from 50 degrees C to 55 degrees C. This study provides evidence for the diversity and function of lignocellulose-degrading enzymes in the termite gut microbial community, which could be of potential use for industrial processes such as pulp biobleaching and denim biostoning.     

Human ERCC5 cDNA-cosmid complementation for excision repair and bipartite amino acid domains conserved with RAD proteins of Saccharomyces cerevisiae and Schizosaccharomyces pombe.

Several human genes related to DNA excision repair (ER) have been isolated via ER cross-species complementation (ERCC) of UV-sensitive CHO cells. We have now isolated and characterized cDNAs for the human ERCC5 gene that complement CHO UV135 cells. The ERCC5 mRNA size is about 4.6 kb. Our available cDNA clones are partial length, and no single clone was active for UV135 complementation. When cDNAs were mixed pairwise with a cosmid clone containing an overlapping 5'-end segment of the ERCC5 gene, DNA transfer produced UV-resistant colonies with 60 to 95% correction of UV resistance relative to either a genomic ERCC5 DNA transformant or the CHO AA8 progenitor cells. cDNA-cosmid transformants regained intermediate levels (20 to 45%) of ER-dependent reactivation of a UV-damaged pSVCATgpt reporter plasmid. Our evidence strongly implicates an in situ recombination mechanism in cDNA-cosmid complementation for ER. The complete deduced amino acid sequence of ERCC5 was reconstructed from several cDNA clones encoding a predicted protein of 1,186 amino acids. The ERCC5 protein has extensive sequence similarities, in bipartite domains A and B, to products of RAD repair genes of two yeasts, Saccharomyces cerevisiae RAD2 and Schizosaccharomyces pombe rad13. Sequence, structural, and functional data taken together indicate that ERCC5 and its relatives are probable functional homologs. A second locus represented by S. cerevisiae YKL510 and S. pombe rad2 genes is structurally distinct from the ERCC5 locus but retains vestigial A and B domain similarities. Our analyses suggest that ERCC5 is a nuclear-localized protein with one or more highly conserved helix-loop-helix segments within domains A and B.     

The ornithine aminotransferase-encoding gene family of rat: cloning, characterization, and evolutionary relationships between a single expressed gene and three pseudogenes

As a first step towards understanding the molecular mechanisms through which the expression of the gene (OAT) encoding ornithine aminotransferase (OAT) is regulated in a tissue-specific manner, we have used a near full length OAT cDNA to isolate related sequences from a rat genomic DNA library. Twenty-one unique clones representing five contigs and spanning approximately 140 kb of genomic DNA were isolated and characterized. From these clones we have identified a single expressed OAT gene and three processed pseudogenes. The comparison of the EcoRI, BamHI, and HindIII fragments contained within these genomic clones with those detected in total genomic DNA by the cDNA probe suggests that essentially all of the OAT-related sequences in the rat genome have been isolated. Thus, the tissue-specific regulation of OAT gene expression appears to be effected through a single expressed gene. Data are presented which suggest that the OAT-1, OAT-2, and OAT-3 pseudogenes arose approximately 28.5, 7.3, and 25.1 Myr ago, respectively. Mutation rates are presented for each codon position of the expressed rat and human OAT genes. The region of the rat genome flanking the boundary of the OAT-3 pseudogene is of additional interest as it shares considerable identity to sequences contained within expressed genes and flanking other processed pseudogenes.     

Probes for CpG islands on the distal long arm of the human X chromosome are clustered in Xq24 and Xq28

We have isolated and characterized 55 EagI-containing genomic DNA clones from the distal long arm of the human X chromosome. The presence of additional sites for rare-cutter restriction enzymes and the demethylation of the corresponding genomic DNA demonstrate that at least 30 clones correspond to CpG islands of the Xq24-Xqter region. All clones were regionally mapped with a hybrid panel. The majority are in Xq28 and Xq24 (18 and 14 clones, respectively), 15 are in the Xq26-Xq27 interval, and none is in Xq25. This analysis demonstrates a nonuniform distribution of CpG islands that may reflect the distribution of coding regions in this part of the genome.     

The presence of major world-wide clones for phage type 4 and 8 Salmonella enterica serovar Enteritidis and the evaluation of their virulence levels by invasiveness assays in vitro and in vivo

Seventy-seven animal isolates of Salmonella enterica serovar Enteritidis (S. Enteritidis) obtained from the United States were analyzed by phage typing and pulsed field gel electrophoresis (PFGE). Thirty-nine strains were found with phage types (PT) 4, 8, and 13a. When the chromosomal DNA of these 39 isolated strains with PT4, 8, and 13a were digested with XbaI, SpeI and NotI, followed by PFGE analysis, 28 strains were found with a pattern combination of X4S4N4, which was the major subtype. When PFGE patterns of the US isolates with PT 4 and 8 were compared with those of the Taiwanese and German isolates, pattern X3S3N3 was confirmed to be the world-wide subtype shared by PT 4 isolates, as previously reported, while pattern X4S4N4 was newly found to be the most common subtype shared by PT 8 strains. The presence of such major world-wide clones, however, does not necessarily mean that these clones are highly virulent, at least not according to the results of invasiveness assays using cultured human intestinal epithelium cell line Int-407 and living BALB/mice.