Developmentally regulated plant genes: the nucleotide sequence of a wheat gliadin genomic clone

Gliadins, the major wheat seed storage proteins, are encoded by a multigene family. Northern blot analysis shows that gliadin genes are transcribed in endosperm tissue into two classes of poly(A)+ mRNA, 1400 bases (class I) and 1600 bases (class II) in length. Using poly(A)+ RNA from developing wheat endosperm we constructed a cDNA library from which a number of clones coding for alpha/beta and gamma gliadins were identified by hybrid-selected mRNA translation and DNA sequencing. These cDNA clones were used as probes for the isolation of genomic gliadin clones from a wheat genomic library. One such genomic clone was characterized in detail and its DNA sequence determined. It contains a gene for a 33-kd alpha/beta gliadin protein (a 20 amino acid signal peptide and a 266 amino acid mature protein) which is very rich in glutamine (33.8%) and proline (15.4%). The gene sequence does not contain introns. A typical eukaryotic promoter sequence is present at -104 (relative to the translation initiation codon) and there are two normal polyadenylation signals 77 and 134 bases downstream from the translation termination codon. The coding sequence contains some internal sequence repetition, and is highly homologous to several alpha/beta gliadin cDNA clones. Homology to a gamma-gliadin cDNA clone is low, and there is no homology with known glutenin or zein cDNA sequences.     

The characterization of cDNA clones coding for wheat storage proteins.

Poly(A)+ RNA isolated from the developing wheat endosperm var. Chinese Spring, has been used as template for the construction of a cDNA library. Within the library, clones have been identified by in vitro translation of hybrid-selected mRNA which encode alpha/beta gliadin related sequences and gamma-gliadin related sequences. The DNA sequence of one such clone has been determined and it shows homology with that of a clone encoding a barley storage protein, B-hordein. The sequence includes a tandem DNA repeat which is discussed in relation to the generation of diversity within the gliadins.     

Identification of a new class of recombinant prolamin genes in wheat.

A novel storage protein gene with obvious [corrected] chimeric structure was isolated from an immature kernel-specific cDNA library prepared from the old Hungarian wheat [corrected] variety, Bánkúti 1201. This clone contains gamma-gliadin sequences in the 5' region and LMW-glutenin sequences on the 3' end. A frameshift mutation was also introduced by the putative recombination event. Hence, the amino acid sequence of the C-terminal region was transformed to a completely new polypeptide. Based on this finding, 7 additional recombinant prolamin genes of similar structure were isolated with specific PCR primers. The 8 chimeric clones seem to be derived from 4 individual gamma-gliadin and 3 LMW-glutenin sequences. These genes show remarkable diversity in size, gliadin:glutenin ratio, frameshift mutations, and sulphur content. The putative functional characteristics of the chimeric polypeptides and problems related to the origin of the encoding genes are discussed.     

The wheat γ-gliadin genes: characterization of ten new sequences and further understanding of γ-gliadin gene family structure

Ten new wheat γ-gliadin gene sequences are reported and an analysis of γ-gliadin gene family structure is carried out using all known γ-gliadin sequences. The new sequences comprise four genomic clones with significantly more flanking DNA than previously reported, and six cDNA clones from a wheat endosperm EST project. Analysis of extended flanking DNA from the genomic clones indicates the limits of conservation of γ-gliadin DNA sequence that are similar to those previously found with other gliadin and glutenin genes and that are theorized to define the DNA sequence necessary for gene control. Most of the flanking DNA is not homologous to any reported DNA sequence, and one flanking region contains the first MITE-like (miniature inverted transposable element) DNA sequence associated with gliadin genes. About a quarter of the encoded polypeptides would contain a free cysteine residue – an observation that may relate to reports that at least some gliadins can participate in wheat endosperm glutenin polymer formation. The new sequences represent both genes closely related to those previously reported and a new sub-class of γ-gliadins.     

Biochemical and molecular characterization of gliadins

Gliadins account for about 40-50% of the total proteins in wheat seeds and play an important role on the nutritional and processing quality of flour. Usually, gliadins could be divided into alpha- (alpha/beta-), gamma- and omega-groups, whereas the low-molecular-weigh (LMW) gliadins were novel seed storage proteins. The low-molecular-weight glutenin subunits (LMW-GSs) were also designated as gliadins in a few literatures. The genes encoding gliadins were mainly located on the short arms of group 6 and group 1 chromosomes, and not evenly distributed. Repetitive sequences covered most of un-coding regions, which attributed greatly to the evolution of wheat genome. Primary structure of each gliadin has been divided into several domains, and the long repetitive domains consisted of peptide motifs. Conserved cysteine residues mainly formed intramolecular disulphide bonds. The rare potential intermolecular disulphide bonds and the long repetitive domains played an important role in the wheat flour quality. There was a general idea that gliadin genes, even prolamin genes, have a common origin and subsequent divergence lead to the gene polymorphism. The gamma-gliadins have been considered to be the most ancient of the wheat prolamin family. Several elements in the 5'-flanking (e.g. CAAT and TATA box) and the 3'-flanking sequences had been detected, which had been shown necessary for the proper expression of gliadins.     

Identification of several new classes of low-molecular-weight wheat gliadin-related proteins and genes

During the initial phases of a wheat endosperm Expressed-Sequence-Tag (EST) project, several clones were determined to be related to wheat gliadin sequences, but not similar enough to be classified into any of the traditional gliadin families [α-, γ-, and ω-gliadins, low-molecular-weight (LMW) glutenins]. Complete sequences of these cDNA clones revealed four new classes of gliadin-related endosperm proteins, but lacking a prominent repeat domain which until now has been characteristic of the gliadins. Two of these classes are related to different minimally described groups of Triticeae endosperm proteins. One class of proteins, which has N-terminal amino-acid sequences matching members of a reported 25-kDa globulin family from wheat, is shown by amino-acid sequencing to match to a family of 25-kDa endosperm proteins, is encoded by a multigene family, and is most similar to the LMW-glutenins. A second new class shows N-terminal homologies to LMW secalins from rye, and has an amino-acid composition similar to wheat and barley LMW proteins with extraction properties similar to prolamins. The third class is most similar to α-gliadins, and the fourth class has no close association to previously described wheat endosperm proteins. Received: 20 October 2000 / Accepted: 20 November 2000     

Restriction enzyme mapping and heteroduplex analysis of the rat milk protein cDNA clones

Detailed restriction enzyme maps have been determined for the three major rat casein and the fourth principal milk protein, alpha-lactalbumin, cDNA clones. Each of the milk protein genes exhibited unique and characteristic restriction enzyme sites. A comparison of the restriction enzyme maps of the three rat caseins revealed no apparent sequence homology among their gene sequences. The orientation of each cDNA gene sequence within the parent plasmid, pBR322, was determined by hybridization with a 3' specific cDNA probe synthesized from a partially hydrolyzed total poly(A) mRNA preparation following isolation by chromatography on oligo(dT)-cellulose. This technique provided a rapid procedure for determining the 5'-3' orientation of the cloned DNA sequences. Three casein clones were selected, which were in the same orientation, and were employed for a heteroduplex analysis to determine whether minor regions of homology existed within the alpha-, beta-, and gamma-casein genes. No heteroduplex formation was observed among these genes even under the low stringency conditions of hybridization employed, suggesting that considerable sequence divergence has occurred within the rat casein gene family.     

一个小麦ω-醇溶蛋白基因同源序列的分离与序列分析

通过基因组PCR克隆了小麦济南177的一个ω-醇溶蛋白基因同源序列（ω1236）,该序列包括部分5′、3′ 侧翼序列和全部可能的编码序列,没有内含子,但在第87、117、125、160、198、313、357和365氨基酸残基处有终止密码子,所有8个终止密码的形成都是碱基转换的结果。比较分析发现,该序列与一个ω-醇溶蛋白基因序列（AB059812）有98%的同源性。推导的氨基酸序列表明该基因符合禾谷类醇溶蛋白的特点。系统进化分析表明,该序列与小麦ω醇溶蛋白在进化上亲缘关系较近,与α-,β-,γ-醇溶蛋白基因关系较远。ω1236推导的氨基酸序列编码了一个可能的47.2 kDa的蛋白质。转化大肠杆菌发现,在IPTG诱导后最初2 h,有小肽段产生,这说明在该基因序列中可能存在终止密码,这与测序结果是一致的。该研究为用PCR技术克隆ω醇溶蛋白基因和进一步研究ω醇溶蛋白基因的结构和功能积累了资料。     

Nucleotide sequence of a γ gliadin gene: Comparisons with other γ gliadin sequences show the structure of γ gliadin genes and the general primary structure of γ gliadins

A low stringency screening of a wheat (Triticum aestivum L.) genomic library produced three types of γ gliadin clones. The sequence of one clone, λ10–20, encoded a γ gliadin of 34.3 kDa. Comparisons of this protein with the proteins encoded by other γ gliadin DNA sequences revealed a general γ gliadin structure: a 19-residue signal peptide; 12-residue mature amino terminus; 12–16 copies of a proline- and glutamine-rich heptapeptide repeat; a 76-residue region high in glutamine containing most of the cyysteines and charged residues: a 6–16-residue polyglutamine region; and the 41-residue carboxyl terminus. Comparisons of the 5′ and 3′ flanking regions of several γ gliadins reveals the high homology and general structure of γ gliadin genes. A further comparison of the 5′ flanking regions with the 5′ flanking regions of other prolamin genes showed that γ gliadin genes contain three copies of a conserved sequence seen within approx. 600 b.p. upstream of the translation start sites of prolamin genes.     

Susceptibility to transglutaminase of gliadin peptides predicted by a mass spectrometry-based assay

A peptidomics approach was developed to identify transglutaminase-susceptible Q residues within a pepsin-trypsin gliadin digest. Based on tagging with a monodansylcadaverine fluorescent probe, six alpha/beta-, gamma-gliadin, and low molecular weight glutenin peptides were identified by nanospray tandem mass spectrometry. In functioning as an acyl acceptor, tissue transglutaminase was able to form complexes with the glutamine-rich gliadin peptides, whereas by lowering pH, the peptides were deamidated by transglutaminase at the same Q residues, which were previously transamidated. The main common feature shared by the peptides was the consensus sequence Q-X-P. Our findings offer relevant information for the understanding of how dietary peptides interact with the host organism in celiac disease.     

Identification and DNA sequence analysis of a γ-type gliadin cDNA plasmid from winter wheat

Summary Recombinant cDNA plasmids possessing the coding sequences for the -type gliadins were isolated from a cDNA library prepared from wheat seed poly (A⁺) RNA. One of these plasmids, pGliB48, specifically hybridizes to poly (A⁺) RNA molecules 1 400–1 500 bases in length that direct the synthesis of polypeptides at 38 Kd and 46 Kd, the latter size characteristic of the -type gliadins. The cDNA sequence of pGliB48 was determined and encompasses the 3 untranslated region as well as 245 amino acids from the C-terminus of the -type gliadin polypeptide. The 5-end of the DNA coding sequence consists of a tandem repeat unit composed of eight amino acids. Localized regions of homology are observed for the /-type and -type gliadin cDNA sequences.     

Isolation of telomere junction fragments by anchored polymerase chain reaction.

We describe a simple polymerase chain reaction (PGR)-based method for isolating short stretches of nontelomeric DNA adjacent to arrays of telomere repeat units, in principle applicable to any species for which the telomere repeat sequence is known. Application of this approach to human DNA resulted in the isolation of many candidate telomere junction clones, at least some of which were shown to be derived from telomere-adjacent regions. Most of the isolated clones detect multiple sequences in the human genome which represent one or a few sequence families present at the ends of most or all autosomes and variably truncated before the start of the telomere repeat array. Substantial sequence divergence between different members of these sequence families suggests a low rate of sequence homogenization by telomere exchange processes. The pseudoautosomal telomere junction has also been isolated and contains a shortened version of a recently described family of short interspersed repetitive elements (SINEs), only 14 base pairs (b.p.) from the start of the telomere.     

Multiple alpha- and beta-tubulin genes in Chlamydomonas and regulation of tubulin mRNA levels after deflagellation

We constructed and characterized recombinant cDNA clones containing alpha- and beta-tubulin DNA sequences. The inserted DNA was determined to code for alpha- and beta-tubulin by positive hybridization-selection. The selected mRNA was translated in vitro, and the translation products were shown to be alpha- or beta-tubulin by comigration with flagellar alpha- and beta-tubulin on one- and two-dimensional gels and by immunoprecipitation with antibodies specific for alpha- and beta-tubulin. Hybridization of the cloned tubulin probes with Chlamydomonas DNA indicated that there are at least two genes each for alpha- and beta-tubulin in this organism. No evidence of cross-hybridization between alpha- and beta-tubulin DNA sequences was found. Because previous experiments had shown that tubulin synthesis was stimulated in response to flagellar amputation, the tubulin clones were used to analyze the levels of tubulin sequences in RNA from cells before and after deflagellation. Hybridization of the tubulin cDNA probes with total or polyadenylated RNA indicated that tubulin sequences in RNA increased within 8 min following deflagellation, reached maximal levels by 50 min and began to decrease by 80 min after deflagellation. One hybridization band was detected with use of the beta-tubulin probe, but RNA in two size classes hybridized to the alpha-tubulin probe.     

Structural studies of cDNA and the gene for the beta-subunit of cGMP phosphodiesterase from human retina]

cDNA clones encoding the beta-subunit of the photoreceptor cGMP phosphodiesterase-(PDE) were isolated from a human retinal library. The encoded polypeptide has 854 amino acid residues with calculated molecular mass of 98416 Da. Alignment of the deduced amino acid sequence with the previously analysed alpha-, beta- and alpha'-subunits of the bovine and mouse PDEs demonstrates highly significant similarities. We have also isolated, from a genomic library, two overlapping recombinant lambda phage clones containing 26 kb of the human PDE beta-subunit gene. The cloning of the human gene and the knowledge of its genomic organization will allow the rapid assessment of the role of this gene in the causation of human retinopathies.     

Assignment of T cell receptor (TCR) alpha-chain gene (A), beta-chain gene (B), gamma-chain gene (G), and delta-chain gene (D) loci on swine chromosomes by in situ hybridization and radiation hybrid mapping

Using the cDNA sequence of porcine T-cell receptor (TCR) alpha-, beta-, gamma-, and delta-chain genes, we screened a porcine BAC library to isolate clones containing these genes. The isolated BAC clones were confirmed to carry these TCR genes by partial nucleotide sequencing. Among the clones obtained in the present screening, two clones carried both the TCR alpha-chain gene (TRA) and the TCR delta-chain gene (TRD) while one clone each carried only the sequence of either TRA or TRD. This observation demonstrated that TRA and TRD are localized in close proximity on a swine chromosome. Also two clones contained the sequence of the TCR beta-chain gene (TRB), and two clones contained the sequence of TCR gamma-chain gene (TRG). Fluorescence in situ hybridization using the above BAC clones as probes revealed that TRA and TRD, TRB, and TRG loci reside on swine chromosomes 7q15.3-->q21, 18q11.3-->q12, and 9q21-->q22, respectively. The chromosome positions of TRA and TRB are consistent with those determined by somatic cell hybrid analysis (Rettenberger et al., 1996). In addition, RH mapping of these genes was performed using the INRA-University of Minnesota RH panel DNA. The result confirmed the position of TRA and TRB reported earlier (http://imprh.toulouse.inra.fr/), and further demonstrated that TRG was located 11 cR away from genetic marker SW989 toward the marker S0019.     

Isolation and characterization of a cDNA encoding a chicken beta thyroid hormone receptor.

We have isolated and characterized a cDNA encoding a chicken beta homolog of c-erbA, or thyroid hormone receptor (TR). Chicken liver cDNA libraries were screened with a rat TR beta-1 cDNA probe, and several cDNA inserts were isolated and characterized. The sequence of one cDNA predicts a 369-amino-acid open reading frame (ORF), with a protein sequence that possesses 96% identity with that of rat TR beta-1, but only 88% identity with chicken TR alpha. These data indicate that the cDNA likely encodes a beta form of TR that has the expected putative DNA and T3 binding domains. The chicken TR beta (chTR beta) in vitro translated protein binds T3 with high affinity, and binds both the thyroid hormone response element (TRE) from the rat growth hormone gene and the Xenopus vitellogenin A2 gene estrogen response element (ERE), similarly to that of the rat TR beta-1. Northern blot analysis revealed the expression of a 7.0-kb RNA in several tissues including cerebellum, pituitary, kidney, and liver. This chicken liver TR beta cDNA sequence varies in both the 5' and 3' untranslated regions from the chicken kidney TR beta cDNA sequence recently reported (Forrest et al., 1990). The 5' untranslated cDNA sequence divergence occurs near a potential splice site junction of the human TR beta gene, suggesting that this chicken liver cDNA may represent an alternatively spliced RNA product of the chicken TR beta gene.     

The complete sequence of a chicken-muscle cDNA encoding the acidic ribosomal protein P1

We have isolated and sequenced a complete cDNA encoding the acidic phosphoprotein P1 from chicken. The analysis of the deduced protein sequence and its comparison with the known sequence of P proteins from human, rat and Artemia salina indicates that the central, alanine-rich region of these proteins was probably generated by internal duplications of the gene followed by modifications within each repeat. This observation explains the length heterogeneity and sequence divergence of this particular region when compared with the highly conserved structure of the remaining segments of the protein.     

Molecular cloning, sequencing, and chromosome mapping of a 1A-encoded omega-type prolamin sequence from wheat.

Gliadins are the most abundant component of the seed storage proteins in cereals and, in combination with glutenins, are important for the bread-making quality of wheat. They are divided into four subfamilies, the alpha-, beta-, gamma-, and omega-gliadins, depending on their electrophoresis pattern, chromosomal location, and DNA and protein structures. Using a PCR-based strategy we isolated and sequenced an omega-gliadin sequence. We also determined the chromosomal subarm location of this sequence using wheat aneuploids and deletion lines. The gene is 1858 bp long and contains a coding sequence 1248 bp in length. Like all other gliadin gene families characterized in cereals, the omega-gliadin gene described here had characteristic features including two repeated sequences 300 bp upstream of the start codon. At the DNA level, the gene had a high degree of similarity to the omega-secalin and C-hordein genes of rye and barley, but exhibited much less homology to the alpha- and beta-gliadin gene families. In terms of the deduced amino acid sequence, this gene has about 80 and 70% similarity to the omega-secalin and C-hordein genes, respectively, and possesses all the features reported for other gliadin gene families. The omega-gliadin gene has about 30 repeats of the core consensus sequences PQQPX and XQQPQQX, twice as many as other gliadin gene families. Southern blotting and PCR analysis with aneuploid and deletion lines for the short arm of chromosome 1A showed that the omega-gliadin was located on the distal 25% of the short arm of chromosome 1A. By comparison of PCR and A-PAGE profiles for deletion stocks, its genomic location must be at a different locus from gli-Ala in 'Chinese Spring'.     

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.