Nucleotide sequence analysis of a novel globulin1 null allele from the Illinois high protein strain of maize

The highly polymorphic maize globulin1 (glbl) gene encodes an abundant embryo storage protein. The present study extends the analysis of glbl variants to further explore the nature of polymorphism at this locus. The null allele Glb1-N1Hb, derived from the Illinois High Protein (IHP) strain of maize was characterized at the molecular level by nucleotide sequence analysis. Among other differences, a single-base insertion leading to a premature termination codon in the carboxyl-terminal half of the otherwise normal protein was observed. The likely reasons for the absence of GLB1 protein accumulation in the IHP strain of maize are discussed.     

Computer analysis identifies sequence homologies between potential gene products of Maize Streak Virus and those of Cassava Latent Virus and Tomato Golden Mosaic Virus

Summary The amino acid sequences of the putative polypeptides of maize streak virus (MSV) have been systematically compared with those of cassava latent virus (CLV) and tomato golden mosaic virus (TGMV) using the programme DIAGON (8).Conserved sequences have been detected between peptides encoded by the complementary (-) sense of MSV and those of CLV and TGMV, viz; the 40 200 M_r polypeptide of CLV-1 (3) and the 40 285 M_r polypeptide of TGMV-A (4) show extensive homologies with the 17 768 M_r and 31 388 M_r polypeptides of MSV (6).Distant and variable homologies have been detected between the putative coat protein of MSV when compared with those of CLV and TGMV. No other relationships between the potential gene products of MSV and those of CLV and TGMV have been detected.The extensive homologies detected between the complementary sense encoded peptides suggest that they are derived from functional genes, and that the directly conserved sequences may contain amino acids essential to the function of these proteins. The less extensive homologies among the putative coat proteins are considered in relation to their possible structures and functions.     

Barley embryo globulin 1 gene, Beg1: Characterization of cDNA, chromosome mapping and regulation of expression

We report identification of a 2189 by cDNA clone from barley corresponding to a single-copy gene, Beg1 (Barley embryo globulin), on chromosome 4, which encodes a storage globulin. In barley, the major protein reserve in the aleurone layer belongs to the 7S globulin class of proteins found in many seeds. Electrophoretically and antigenically similar proteins are present in the barley embryo. Accumulation of Beg1 mRNA was noted beginning 15–20 days post-anthesis in both the aleurone layer and embryo of the developing barley grain but not in the starchy endosperm. A high level of Beg1 mRNA is also present in the mature imbibed aleurones, which can be repressed by treatment with gibberellic acid. This repressive effect of gibberellin on the levels of Beg1 mRNA is confirmed in the gibberellin response-constitutive mutant, slender, whose aleurone layers do not accumulate Beg1 mRNA even in the absence of applied gibberellic acid. The deduced primary translation product of the Beg1 mRNA is a 637 amino acid (72 kDa) protein with homology to maize embryo globulin 1 (GLB1) and a partial sequence of a wheat 7S globulin. The internal amino acid sequence of BEG1 closely matches the N-terminal sequence of isolated barley aleurone globulin. Seven imperfect tandem repeats of 16 amino acids each are present near the N-terminus of BEG1, which conform to the consensus HGEGEREEEXGRGRGR, and contribute to the observed unusual amino acid composition of this protein. A second, distinct barley globulin gene, Beg2, which is homologous to maize Glb2, was detected by Northern and Southern analysis. Beg-2 and Beg1 are regulated differently which may indicate variation in storage or utilization properties among the barley globulins.     

Abscisic Acid and the developmental regulation of embryo storage proteins in maize

The relationship of abscisic acid (ABA) inhibition of precocious germination and ABA-induced storage protein accumulation was examined over the course of embryogenesis in wild-type and viviparous mutants of maize (Zea mays L.). We show that a high level of embryo ABA and the product of the Viviparous-1 gene are both required in early maturation phase for germination suppression and the accumulation of storage globulins encoded by the gene Glb1. Suppressing precocious germination with a high osmoticum is not sufficient to initiate Glb1 protein synthesis, although continued accumulation is contingent upon this inhibition; germination of immature or mature embryos leads to a decline in synthesis and the degradation of stored globulins. Late in embryogenesis, fragments of Glb1 protein accumulate, coinciding with the loss of ABA sensitivity. These results suggest that ABA influences storage globulin accumulation by initiating synthesis, suppressing degradation, and inhibiting precocious germination.     

Nucleotide sequence of a cDNA clone encoding the precursor of the peridinin-chlorophyll a-binding protein from the dinoflagellate Symbiodinium sp.

mRNA from the dinoflagellate Symbiodinium sp. isolated from the staghorn coral Acropora formosa was used for the construction of cDNA libraries. A cDNA clone was identified which encoded the precursor of peridinin-chlorophyll a-binding protein (PCP), including a 52 amino acid transit peptide and the 313 amino acid mature protein. The deduced amino acid sequence clearly contains an internal duplication, implying that amongst dinoflagellates the M _r 35 000 form of PCP has arisen by duplication and fusion of genes encoding the M _r 15 000 form. This is the first reported sequence of a dinoflagellate light-harvesting protein. The anatomy of the mature protein and the transit peptide are discussed.Abbreviations PCP peridinin-chlorophyll a-binding protein; cab, chlorophyll a/b-binding protein - LHC light-harvesting complex - FCP fucoxanthin-chlorophyll a/c-binding protein     

Cloning and expression of theClostridium thermocellum celS gene inEscherichia coli

Clostridium thermocellum ATCC 27405 produces an extremely complicated multi-component cellulase aggregate (cellulosome) highly active on crystalline cellulose. From the cellulosome, two subunits, CelS (or S _s ;M _r = 82 000) and CelL (or S _l , CipA;M _r = 250 000), have been identified as essential for crystalline cellulose degradation [Wu et al. (1988) Biochemistry 27:1703]. We have determined the DNA sequence of thecelS gene from four cloned DNA fragments encompassing this gene [Wang et al. (1993) J Bacteriol 175:1293]. To express the entirecelS gene inEscherichia coli, thecelS structural gene was amplified by the polymerase chain reaction (PCR) employing the PCR primers corresponding to sequences flanking the desired gene. This PCR product (2.1 x 10³ bases; 2.1 kb) was cloned into anE. coli expression vector pRSET B. Subsequent expression of the cloned gene resulted in a fusion protein (rCelS;M _r = 86 000) as inclusion bodies. The rCelS protein was recognized specifically by an anti-CelS antiserum in a Western blot analysis. The inclusion bodies were purified and solubilized in 5m urea. The refolded rCelS produced very little reducing sugar from carboxymethylcellulose. However, it showed a higher activity on the crystalline cellulose (Avicel) and an even higher activity on phosphoricacid-swollen Avicel. These results indicate that the CelS is an exoglucanase.     

Genes involved in the biosynthesis of PQQ fromAcinetobacter calcoaceticus

From a gene bank of theAcinetobacter calcoaceticus genome a plasmid was isolated that complements four different classes of PQQ^- mutants. Subclones of this plasmid revealed that the four corresponding PQQ genes are located on a fragment of 5 kilobases. The nucleotide sequence of this 5 kb fragment was determined and by means of Tn5 insertion mutants the reading frames of the PQQ genes could be identified. Three of the PQQ genes code for proteins of M_r 29700 (gene I), M_r 10800 (gene II) and M_r 43600 (gene III) respectively. In the DNA region where gene IV was mapped however the largest possible reading frame encodes for a polypeptide of only 24 amino acids. A possible role for this small polypeptide will be discussed. Finally we show that expression of the four PQQ genes inAcinetobacter lwoffi andEscherichia coli lead to the synthesis of the coenzyme in these organisms.     

Purification and properties of an endospermic protein of maize associated with the Opaque-2 and Opaque-6 genes

Maize endosperms accumulate during development a large amount of storage proteins (zeins). The rate of zein accumulation is under the control of several regulatory genes. Two of these, the opaque-2 and opaque-6 mutants, lower the zein level, thus improving the nutritional quality of maize meals. An endosperm protein of Mr 32 000 (b-32) appears to be correlated with the zein level. The b-32 protein is encoded by the opaque-6 gene which, in turn, is activated by opaque-2. We report the purification, amino-acid composition and peptide map of b-32 protein. Furthermore we demonstrate that the protein exists as a monomer likely located in the soluble cytoplasm. As a step towards the isolation of a complementary-DNA clone for b-32 protein, the purification of its corresponding mRNA is described.Abbreviations b-32 endosperm protein of M_r 32000 - cDNA complementary DNA - EDTA ethylenediaminetetraacetic acid - O2, O6 opaque 2, opaque-6 genes - PMSF phenylmethylsulfonylfluoride - RSP reduced soluble proteins - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis     

Germline transmission of exogenous genes in chickens using helper-free ecotropic avian leukosis virus-based vectors

We have used vectors derived from avian leukosis viruses to transduce exogenous genes into early somatic stem cells of chicken embryos. The ecotropic helper cell line, Isolde, was used to generate stocks of NL-B vector carrying theNeo ^r selectable marker and theEscherichia coli lacZ gene. Microinjection of the NL-B vector directly beneath unincubated chicken embryo blastoderms resulted in infection of germline stem cells. One of the 16 male birds hatched (6.25%) from the injected embryos contained vector DNA sequences in its semen. Vector sequences were transmitted to G₁ progeny at a frequency of 2.7%.Neo ^r andlacZ genes were transcribedin vitro in chicken embryo fibroblast cultures from transgenic embryos of the G₂ progeny.     

The chloroplast-located glutamine synthetase of Phaseolus vulgaris L.: nucleotide sequence,expression in different organs and uptake into isolated chloroplasts

Work using a full-length cDNA clone has revealed that the plastid-located glutamine synthetase (GS) of Phaseolus vulgaris is encoded by a single nuclear gene. Nucleotide sequencing has shown that this cDNA is more closely related to a cDNA encoding the plastidic GS of Pisum sativum than to cDNAs encoding three different cytosolic GS subunits of P. vulgaris. The plastid GS subunits are initially synthesized as higher M _r (47000) precursors containing an N-terminal presequence of about 50 amino acids which is structurally similar to the presequences of other nuclear-encoded chloroplast proteins. The precursor has been synthesized in vitro and is imported by isolated pea chloroplasts and processed to two polypeptides of the same size as native P. vulgaris chloroplast GS subunits (M _r 42000). Experiments with fusion proteins show that the N-terminal 68 amino acids of this precursor allow the cytosolic GS subunit also to be imported and processed by isolated chloroplasts. Polyadenylated mRNA specifically related to the plastidic GS gene is most highly abundant in chloroplast-containing organs (leaves and stems) but is also detectable in roots and nodules.     

Catfish Thrombocytes Express an Integrin-like CD41/CD61 Complex

A thrombocyte-specific antigen was identified in two closely related catfish,Ictalurus punctatusandIctalurus furcatus,by monoclonal antibodies 4-20 and 7-2. The antibodies immunoprecipitate two noncovalently associated glycoprotein chains ofM_r180,000 andM_r95,000. Under reducing conditions theM_r180,000 chain is resolved intoM_r150,000 and 32,000 subcomponents. Analysis of N-terminal amino acid sequences indicates homology of theM_r95,000 chain with the β₃integrin subunit and homology of theM_r150,000 chain with the α_IIbintegrin subunit. These antibodies induce catfish thrombocyte aggregation and alteration of cell shape. The data indicate conservation of the megakaryocyte/platelet-restricted CD41/CD61 complex in bony fish.     

The Triticum aestivum non-specific lipid transfer protein (TaLtp) gene family: comparative promoter activity of six TaLtp genes in transgenic rice

Plant non-specific lipid transfer proteins (nsLTPs) are encoded by a multigene family and support physiological functions, which remain unclear. We adapted an efficient ligation-mediated polymerase chain reaction (LM-PCR) procedure that enabled isolation of 22 novel Triticum aestivum nsLtp (TaLtp) genes encoding types 1 and 2 nsLTPs. A phylogenetic tree clustered the wheat nsLTPs into ten subfamilies comprising 1–7 members. We also studied the activity of four type 1 and two type 2 TaLtp gene promoters in transgenic rice using the β-Glucuronidase reporter gene. The activities of the six promoters displayed both overlapping and distinct features in rice. In vegetative organs, these promoters were active in leaves and root vascular tissues while no β-Glucuronidase (GUS) activity was detected in stems. In flowers, the GUS activity driven by the TaLtp7.2a, TaLtp9.1a, TaLtp9.2d, and TaLtp9.3e gene promoters was associated with vascular tissues in glumes and in the extremities of anther filaments whereas only the TaLtp9.4a gene promoter was active in anther epidermal cells. In developing grains, GUS activity and GUS immunolocalization data evidenced complex patterns of activity of the TaLtp7.1a, TaLtp9.2d, and TaLtp9.4a gene promoters in embryo scutellum and in the grain epicarp cell layer. In contrast, GUS activity driven by TaLtp7.2a, TaLtp9.1a, and TaLtp9.3e promoters was restricted to the vascular bundle of the embryo scutellum. This diversity of TaLtp gene promoter activity supports the hypothesis that the encoded TaLTPs possess distinct functions in planta.     

Isolation and nucleotide sequence of the hmp gene that encodes a haemoglobin-like protein in Escherichia coli K-12

Summary In the course of an attempt to identify genes that encode Escherichia coli dihydropteridine reductase (DHPR) activities, a chromosomal DNA fragment that directs synthesis of two soluble polypeptides of M_r 44000 and 46000 was isolated. These proteins were partially purified and were identified by determination of their N-terminal amino acid sequences. The larger was serine hydroxymethyltransferase, encoded by the glyA gene, while the smaller was the previously described product of an unnamed gene closely linked to glyA, and transcribed in the opposite direction. Soluble extracts of E. coli cells that overproduced the 44 kDa protein had elevated DHPR activity, and were yellow in colour. Their visible absorption spectra were indicative of a CO-binding b-type haemoprotein that is high-spin in the reduced state. The sequence of the N-terminal 139 residues of the protein, deduced from the complete nucleotide sequence of the gene, had extensive homology to almost all of Vitreoscilla haemoglobin. We conclude that E. coli produces a soluble haemoglobin-like protein, the product of the hmp gene (for haemoprotein). Although the protein has DHPR activity, it is distinct from the previously purified E. coli DHPR.     

Molecular identification and comparison of the starch synthase bound to starch granules between endosperm and leaf blades in rice plants

Normal (nonglutinous) rice plants (Oryza sativa andO. glaberrima) contain more than 18% amylose in endosperm starch, whilewaxy (glutinous) plants lack it in this starch. In contrast, leaf starch contained more than 3.6% amylose even inwaxy plants. SDS-PAGE analysis of proteins bound to endosperm starch granules in the normal plants revealed a single band with aMr of 60 kd, whereaswaxy plants did not exhibit a similar band. The activity of starch synthase (NDP-glucose-starch glucosyltransferase) was completely inhibited by antibody against the 60-kd protein. Thus, we conclude that the 60-kd protein is thewaxy protein encoded by theWx allele, which also plays a role in the synthesis of nonglutinous starch in endosperm tissue. In leaf blades, the proteins bound to starch granules separated into five bands withMr's of 53.6 to 64.9 kd on SDS-PAGE. Analysis of these proteins by immunoblotting using antiserum againstWx protein and inhibition of starch synthase activity by the synthase antibody revealed that none of these proteins was homologous toWx protein. We suggest that the synthesis of amylose in leaf blades is brought about by a protein encoded by a gene(s) different from theWx gene expressed in the endosperm.