Identification of a gene family (kat) encoding kinesin-like proteins in Arabidopsis thaliana and the characterization of secondary structure of KatA

A gene family, designated kat, has been characterized in Arabidopsis thaliana by genomic Southern hybridization and nucleotide sequencing analysis. The kat gene family includes at least five members, named katA, katB, katC, katD and katE, whose products share appreciable sequence similarities in their presumptive ATP-binding and microtubule-binding motifs with known kinesin-like proteins. The carboxyl-terminal region of the KatA protein deduced from the nucleotide sequence of the cDNA clone has considerable homology with the mechanochemical motor domain of the kinesin heavy chain. The predicted secondary structure of the KatA protein indicates two globular domains separated by a long a helical coiled coil with heptad repeat structures, such as are commonly found in kinesin-like proteins.     

Cell cycle-dependent accumulation of a kinesin-like protein, KatB/C, in synchronized tobacco BY-2 cells

Immunoblot analysis with antibodies prepared against highly purified recombinant truncated kinesin-like proteins, KatB(5–249) and KatC(207–754), encoded by the katB and katC genes of Arabidopsis thaliana revealed the presence of a kinesin-like polypeptide, termed KatB/C, in cultured tobacco BY-2 cells. The KatB/C polypeptide cosedimented with microtubules in the presence of a nonhydrolyzable ATP analogue and was released from microtubules in the presence of ATP, both of which are characteristics of kinesin proteins. The amount of KatB/C polypeptide in synchronous BY-2 cells increased during M phase of the cell cycle. Microtubule-based structures present in cells at M phase, such as the spindle and phragmoplast, may be the site of action of the KatB/C protein.     

Nucleotide sequence of a gene from Arabidopsis thaliana encoding a myb homologue

A gene encoding a proto-oncogene, a myb-related gene named Atmyb1, was cloned from Arabidopsis thaliana, and its nucleotide sequence was determined. The Atmyb1 gene contains an intron of 494 bp, and there are no highly homologous sequences present in the A. thaliana genome, but evidence was found that other myb-related genes exist. In the 5 flanking region, we found several typical cis-acting elements found in plant promoters. Sequence comparisons revealed that the ATMYB1 protein has a putative DNA-binding domain with two repeats of tryptophan clusters, which is common in MYB-related proteins in plants, while animal MYB-related proteins contain DNA-binding domains with three repeats of tryptophan clusters. The putative DNA-binding domain of the ATMYB1 protein has higher homology with that of the human c-MYB protein than with those of other plant MYB proteins.     

The atypical chlorophyll a/b/c light-harvesting complex of Mantoniella squamata: molecular cloning and sequence analysis

cDNA species encoding precursor polypeptides of the chlorophyll a/b/c light-harvesting complex (LHC) of Mantoniella squamata were cloned and sequenced. The precursor polypeptides have molecular weights of 24.2 kDa and are related to the major chlorophyll a/b polypeptides of higher plants. Southern analysis showed that their genes belong to the nuclear encoded Lhc multigene family; the investigated genes most probably do not contain introns. The chlorophyll a/b/c polypeptides contain two highly conserved regions common to all LHC polypeptides and three hydrophobic -helices, which span the thylakoid membrane. The first membrane-spanning helix, however, is not detected by predictive methods: its atypical hydrophilic domains may bind the chlorophyll c molecules within the hydrophobic membrane environment. Homology to LHC 11 of higher plants and green algae is specifically evident in the C-terminal region comprising helix III and the preceding stroma-exposed domain. The N-terminal region of 29 amino acids resembles the structure of a transit sequence, which shows only minor similarities to those of LHC II sequences. Strikingly, the mature light-harvesting polypeptides of M. squamata lack an N-terminal domain of 30 amino acids, which, in higher plants, contains the phosphorylation site of LHC 11 and simultaneously mediates membrane stacking. Therefore, the chlorophyll a/b/c polypeptides of M. squamata do not exhibit any light-dependent preference for photosystem I or 11. The lack of this domain also indicates that the attractive forces between stacked thylakoids are weak.This study is dedicated to Prof. Dr. W Rüdiger on the occasion of his 60th birthday     

Features of the extracellular domain of the S-locus receptor kinase from Brassica

An S-receptor kinase (SRK) gene associated with self-incompatibility in a Brassica napus subsp. oleifera line has been characterized. The SRK-A14 cDNA shows the highest levels of homology in the 5 end to the SLG-A14 cDNA present at the same locus. RNA blot analysis shows that the SRK-A14 gene is expressed predominantly in the pistil, and at lower levels in the anthers. The predicted amino acid sequences from the extracellular domain of the SRK-A14 gene and three other SRK genes were compared. The different SRK extracellular domains were for the most part very similar, with the exception of two variable regions containing a high level of amino acid alterations. These extracellular domains also contain a region of similarity to the immunoglobulin domains present in members of the immunoglobulin superfamily. These findings may define regions of the SRK protein that are necessary for interactions between SRK and other proteins.     

Identification of conserved domains in the Δ12 desaturases of cyanobacteria

Cyanobacterial genes for enzymes that desaturate fatty acids at the 12 position, designated desA, were isolated from Synechocystis PCC6714, Synechococcus PCC7002 and Anabaena variabilis by crosshybridization with a DNA probe derived from the desA gene of Synechocystis PCC6803. The genes of Synechocystis PCC6714, Synechococcus PCC7002 and A. variabilis encode proteins of 349, 347 and 350 amino acid residues, respectively. The transformation of Synechococcus PCC7942 with the desA genes from Synechocystis PCC6714, Synechococcus PCC7002 and A. variabilis was associated with the ability to introduce a second double bond at the 12 position of fatty acids. The amino acid sequence of the products of the desA genes revealed the presence of four conserved domains. Since one of the conserved domains was also found in the amino acid sequences of 3 desaturases of Brassica napus and mung bean, this domain may play an essential role in the introduction of a double bond into fatty acids bound to membrane lipids.Abbreviations X:Y(Z) fatty acid containing X carbon atoms with Y double bonds in the cis configuration at position Z counted from the carboxyl terminus     

Promiscuous and specific phospholipid binding by domains in ZAC,a membrane-associated Arabidopsis protein with an ARF GAP zinc finger and a C2 domain

Arabidopsis proteins were predicted which share an 80 residue zinc finger domain known from ADP-ribosylation factor GTPase-activating proteins (ARF GAPs). One of these is a 37 kDa protein, designated ZAC, which has a novel domain structure in which the N-terminal ARF GAP domain and a C-terminal C2 domain are separated by a region without homology to other known proteins. Zac promoter/-glucuronidase reporter assays revealed highest expression levels in flowering tissue, rosettes and roots. ZAC protein was immuno-detected mainly in association with membranes and fractionated with Golgi and plasma membrane marker proteins. ZAC membrane association was confirmed in assays by a fusion between ZAC and the green fluorescence protein and prompted an analysis of the in vitro phospholipid-binding ability of ZAC. Phospholipid dot-blot and liposome-binding assays indicated that fusion proteins containing the ZAC-C2 domain bind anionic phospholipids non-specifically, with some variance in Ca²⁺ and salt dependence. Similar assays demonstrated specific affinity of the ZAC N-terminal region (residues 1–174) for phosphatidylinositol 3-monophosphate (PI-3-P). Binding was dependent in part on an intact zinc finger motif, but proteins containing only the zinc finger domain (residues 1–105) did not bind PI-3-P. Recombinant ZAC possessed GTPase-activating activity on Arabidopsis ARF proteins. These data identify a novel PI-3-P-binding protein region and thereby provide evidence that this phosphoinositide is recognized as a signal in plants. A role for ZAC in the regulation of ARF-mediated vesicular transport in plants is discussed.     

Interspecific comparison of Drosophila serendipity δ and β: Multimodular structure of these C2H2 zinc finger proteins

The Drosophila serendipity (sry) and genes, which resulted from a gene duplication event, provide an interesting model for the evolutionary diversification in structure and function of C₂H₂ zinc finger proteins. We examined here the divergence of the sry and proteins over an estimated period of 45 million years by comparing their predicted sequences in D. melanogaster, D. pseudoobscura, and D. subobscura. Between orthologs, i.e., pairs of either sry or sry , the NH₂-proximal region delineated by pairs of C-X2-C motifs and the DNA-binding finger domain are highly conserved. Sequence conservation operates over the entire finger domain, including the links separating adjacent fingers, even though each has a unique sequence different from the widespread TGEKP motif. In contrast, the sequence of the central acidic region has extensively diverged and differs between species in the number of amino acids, probably because of slippagedriven mutations. The NH₂-terminal region and fingers 1, 5, and 6 differentiate the sry and proteins while zinc fingers 2, 3, and 4 are virtually identical in these two paralogs. A nuclear localization signal of the SV40T antigen type, preceded by a potential CKII phosphorylation regulatory site, is conserved in sry but not found in sry . The interspecific conserved regions correlate well with the positions of zygotic lethal mutations in the D. melanogaster sry protein. Furthermore, P-element transformation experiments show that a transgenic copy of the D. pseudoobscura sry gene rescues the sry mutant phenotype. Convergence of genetic and structural data on the sry proteins supports a multimodular function and mode of evolution of these C₂H₂ finger proteins.Abbreviations CKII casein kinase II - D.m, D.p, D.s Drosophila melanogaster, D. pseudoobscura and D. subobscura, respectively - NLS nuclear localization signal - sry serendipity Correspondence to: A. Vincent     

Analysis of conserved domains identifies a unique structural feature of a chloroplast heat shock protein

Summary A low molecular weight heat shock protein which localizes to chloroplasts has been identified in several plant species. This protein belongs to a eukaryotic superfamily of small HSPs, all of which contain a conserved carboxyl-terminal domain. To investigate further the structure of this HSP, we isolated and sequenced cDNA clones for the chloroplast LMW HSPs from Petunia hybrida and Arabidopsis thaliana. The cloning of chloroplast HSPs from these two species enabled us to compare the amino acid sequences of this protein from plant species (petunia, Arabidopsis, pea, soybean and maize) that represent evolutionarily divergent taxonomic subclasses. Three conserved regions were identified, which are designated as regions I, II and III. Regions I and II are also shared by cytoplasmic LMW HSPs and therefore are likely to have functional roles common to all eukaryotic LMW HSPs. In contrast, consensus region III is not found in other LMW HSPs. Secondary structure analysis predicts that this region forms an amphipathic -helix with high conservation of methionine residues on the hydrophobic face and 100% conservation of residues on the hydrophilic face. This structure is similar to three helices, termed methionine bristles, which are found in a methionine-rich domain of a 54 kDa protein component of signal recognition particle (SRP54). The conservation of regions I and II among LMW cytoplasmic and chloroplast HSPs suggests that these HSPs perform related functions in different cellular compartments. However, identification of the methionine bristle domain suggests that chloroplast HSPs also have unique functions or substrates within the special environment of the chloroplast or other plastids.Abbreviations HS heat shock - HSP heat shock protein - LMW low molecular weight     

The cycHJKL gene cluster plays an essential role in the biogenesis of c-type cytochromes in Bradyrhizobium japonicum

We present an extended genetic analysis of the previously identified cycH locus in Bradyrhizobium japonicum. Three new open reading frames found in an operon-like structure immediately adjacent to the 3 end of cycH were termed cycJ, cycK and cycL. A deletion mutant (cycHJKL) and biochemical analysis of its phenotype showed that the genes of the cluster are essential for the biogenesis of cellular c-type cytochromes. Mutations in discrete regions of each of the genes were also constructed and shown to affect anaerobic respiration with nitrate and the ability to elicit an effective symbiosis with soybean, both phenotypes being a consequence of defects in cytochrome c formation. The CycK and CycL proteins share up to 53% identity in amino acid sequence with the Rhodobacter capsulatus Ccll and Cc12 proteins, respectively, which have been shown previously to be essential for cytochrome c biogenesis, where-as cycJ codes for a novel protein of 169 amino acids with an M_r of 17857. Localisation studies revealed that CycJ is located in the periplasmic space; it is probably anchored to the cytoplasmic membrane via an N-terminal hydrophobic domain. Based on several considerations discussed here, we suggest that the proteins encoded by the cycHJKL-cluster may be part of a cytochrome c-haem lyase complex whose active site faces the periplasm.     

Characterization,expression and phylogenetic study of R2R3-MYB genes in orchid

cDNA fragments representing 21 R2R3-MYB genes were isolated by RT-PCR from the Dendrobiumorchid hybrid Woo Leng. Six full-length cDNA clones were obtained from a flower cDNA library, four of which, DwMYB1, DwMYB2, DwMYB8 and DwMYB10, represent typical plant R2R3-MYB genes. The conceptual DwMYB4 protein is truncated at the C-terminal region and contains the R2 repeat and the N-terminal half of the R3 repeat (R2R3). DwMYB4 expression is restricted to flowers. DwMYB9 contains an 8 amino acid N-terminal deletion in the R2 repeat (R2R3) and is expressed at high levels in mature flower and inflorescence, but at very low levels in young flower buds. DwMYB8 and DwMYB10 show similar expression patterns and share very high sequence similarity in the N-terminal part of the MYB domain. Analysis of amino acid substitution indicated that the pattern and type of substitution between Arabidopsis and maize are quite different. Maize may have more conserved substitution in the MYB^BRH domain than Arabidopsis.     

Identification of the domain of Saccharomyces cerevisiae adenylate cyclase associated with the regulatory function of RAS products

Summary Various truncated CYR1 genes of Saccharomyces cerevisiae were fused to efficient promoters and expressed in Escherichia coli and S. cerevisiae cells with or without the RAS genes. The catalytic domain of adenylate cyclase encoded by the 3-terminal 1.3 kb region of the open reading frame of the CYR1 gene produced cyclic AMP, irrespective of the presence of RAS genes. The product of the 3-terminal 2.1 kb region of CYR1 showed guanine nucleotidedependent adenylate cyclase activity and produced a large amount of cAMP in the presence of the RAS gene. Thus, the domain encoded by the 0.8 kb region adjacent to the catalytic domain is associated with the regulatory function of the RAS products. The cyr1 RAS1 RAS2 cells carrying the 3-terminal 1.3 kb region of CYR1 were unable to respond to environmental signals such as sulfur starvation and temperature shift, but the cyr1 cells carrying the 2.1 kb region and at least one RAS gene were able to respond to these signals. The environmental signals may be transferred to the adenylate cyclase system through the RAS products.     

A novel family of mitochondrial proteins is represented by the <Emphasis Type="Italic">Drosophila</Emphasis> genes <Emphasis Type="Italic">slmo</Emphasis>, <Emphasis Type="Italic">preli-like</Emphasis> and <Emphasis Type="Italic">real-time</Emphasis>

Mitochondria play essential roles in development and disease. The characterisation of mitochondrial proteins is therefore of particular importance. The slowmo (slmo) gene of Drosophila melanogaster has been shown to encode a novel type of mitochondrial protein, and is essential in the developing central nervous system. The Slmo protein contains a conserved PRELI/MSF1p domain, found in proteins from a wide variety of eukaryotic organisms. However, the function of the proteins of this family is currently unknown. In this study, the evolutionary relationships between members of the PRELI/MSF1p family are described, and we present the first analysis of two novel Drosophila genes predicted to encode proteins of this type. The first of these, preli-like (prel), is expressed ubiquitously during embryonic development, whilst the second, real-time (retm), is expressed dynamically in the developing gut and central nervous system. retm encodes a member of a novel conserved subclass of larger PRELI/MSF1p domain proteins, which also contain the CRAL-TRIO motif thought to mediate the transport of small hydrophobic ligands. Here we provide evidence that, like Slmo, both the Prel and Retm proteins are localised to the mitochondria, indicating that the function of the PRELI/MSF1p domain is specific to this organelle.Edited by P. Simpson     

The pea<Emphasis Type="Italic"> END1</Emphasis> promoter drives anther-specific gene expression in different plant species

END1 was isolated by an immunosubtractive approach intended to identify specific proteins present in the different pea (Pisum sativum L.) floral organs and the genes encoding them. Following this strategy we obtained a monoclonal antibody (mAbA1) that specifically recognized a 26-kDa protein (END1) only detected in anther tissues. Northern blot assays showed that END1 is expressed specifically in the anther. In situ hybridization and immunolocalization assays corroborated the specific expression of END1 in the epidermis, connective, endothecium and middle layer cells during the different stages of anther development. END1 is the first anther-specific gene isolated from pea. The absence of a practicable pea transformation method together with the fact that no END1 homologue gene exists in Arabidopsis prevented us from carrying out END1 functional studies. However, we designed functional studies with the END1 promoter in different dicot species, as the specific spatial and temporal expression pattern of END1 suggested, among other things, the possibility of using its promoter region for biotechnological applications. Using different constructs to drive the uidA (-glucuronidase) gene controlled by the 2.7-kb isolated promoter sequence we have proven that the END1 promoter is fully functional in the anthers of transgenic Arabidopsis thaliana (L.) Heynh., Nicotiana tabacum L. (tobacco) and Lycopersicon esculentum Mill. (tomato) plants. The presence in the –330-bp region of the promoter sequence of three putative CArG boxes also suggests that END1 could be a target gene of MADS-box proteins and that, subsequently, it would be activated by genes controlling floral organ identity.Abbreviations GUS -Glucuronidase - uidA -Glucuronidase gene - Nos Nopaline synthase gene - nptII Neomycin phosphotransferase II gene - SEM Scanning electron microscopy GenBank accession numbers for the END1 cDNA and the END1 promoter: AY 091466 and AY 324651, respectively     

Evolution of the threonine-glycine repeat region of the period gene in the melanogaster species subgroup of drosophila

Summary The Threonine-Glycine (Thr-Gly) region of the period gene (per) in Drosophila was compared in the eight species of the D. melanogaster subgroup. This region can be divided into a diverged variable-length segment which is flanked by more conserved sequences. The number of amino acids encoded in the variable-length region ranges from 40 in D. teissieri to 69 in D. mauritiana. This is similar to the range found within natural populations of D. melanogaster. It was possible to derive a Thr-Gly allele of one species from that of another by invoking hypothetical Thr-Gly intermediates. A phylogeny based on the more conserved flanking sequences was produced. The results highlighted some of the problems which are encountered when highly polymorphic genes are used to infer phylogenies of closely related species.     

Nucleotide sequence and expression of the two genes encoding D2 protein and the single gene encoding the CP43 protein of Photosystem II in the cyanobacterium synechococcus sp. PCC 7002

The unicellular photoheterotrophic cyanobacterium Synechococcus sp. PCC 7002 was shown to encode two genes for the Photosystem II reaction center core protein D2 and one gene for the reaction center chlorophyhll-binding protein CP43. These three genes were cloned and their DNA sequences determined along with their flanking DNA sequences. Northern hybridization experiments show that both genes which encode D2, psbD1 and psbD2, are expressed at roughly equivalent levels. For each of the two psbD genes, there are 18 nucleotide differences among the 1059 nucleotides which are translated. The DNA sequences surrounding the coding sequences are nearly 70% divergent. Despite the DNA sequence differences in the genes, the proteins encoded by the two genes are predicted to be identical. The proteins encoded by psbD1 and psbD2 are 92% homologous to other sequenced cyanobacterial psbD genes and 86% homologous to sequenced chloroplast-encoded psbD genes.The single gene for CP43, psbC, overlaps the 3 end of psbD1 and is co-transcribed with it. Results from previous sequencing of psbC genes encoded by chloroplasts suggest that the 5 end of the psbC gene overlaps the 3 end of the coding sequence of psbD by 50 nucleotides. In Synechococcus sp. PCC 7002, the methionine codon previously proposed to be the start codon for psbC is replaced by an ACG (threonine) codon. We propose an alternative start for the psbC gene at a GTG codon 36 nucleotides downstream from the threonine codon. This GTG codon is preceded by a consensus E. coli-like ribosome binding sequence. Both the GTG start codon and its preceding ribosome binding sequence are conserved in all psbC genes sequenced from cyanobacteria and chloroplasts. This suggests that all psbC genes start at this alternative GTG codon. Based on this alternative start codon, the gene product is 85% identical to other cyanobacterial psbC gene products and 77% identical to eucaryotic chloroplast-encoded psbC gene products.     

<Emphasis Type="Italic">Agrobacterium</Emphasis>-mediated transformation of European chestnut embryogenic cultures

An innovative and efficient genetic transformation protocol for European chestnut is described in which embryogenic cultures are used as the target material. When somatic embryos at the globular or early-torpedo stages were cocultured for 4 days with Agrobacterium tumefaciens strain EHA105 harbouring the pUbiGUSINT plasmid containing marker genes, a transformation efficiency of 25% was recorded. Murashige and Skoog culture medium containing 150 mg/l of kanamycin was used as the selection medium. The addition of acetosyringone was detrimental to the transformation efficiency. Transformation was confirmed by a histochemical -glucuronidase (GUS ) assay, PCR and Southern blot analyses for the uidA (GUS) and nptII (neomycin phosphotransferase II) genes. At present, 93 GUS-positive chestnut embryogenic lines are being maintained in culture. Low germination rates (6.3%) were recorded for the transformed somatic embryos. The presence of the transferred genes in leaves and shoots derived from the germinated embryos was also verified by the GUS assay and PCR analysis.     

The location of untranscribed DNA sequences within ras genes essential for eliciting plant growth suppression

Three heterologous ras DNA-coding sequences and their deletion derivatives were introduced into plant cells to investigate the role of the ras-coding sequences, especially conserved regions, in eliciting growth inhibition. All three ras-coding sequences caused a similar inhibition of plant cell growth, and it was the conserved coding regions which were responsible for this inhibitory effect. The 493 bp conserved region within the v-Ha-ras-coding sequence was studied further, and was shown to be responsible for the inhibitory effect. This region is conserved (over 44%) among the three ras genes studied and encodes a catalytic region of the Ras protein. Small deletions at either the 5 or 3 end of this 493 bp sequence could abolish or dramatically reduce the inhibitory effect. A 36 bp region at the 5 end of the 493 bp region was found to be highly conserved between v-Ha-ras and eight different plant ras or ras-related genes based upon analysis of published sequences. Small deletions affecting this highly conserved 36 bp region completely abolished the inhibitory effect, while deletion of a similar number of base pairs in adjacent regions did not. These results indicate that plant growth inhibition by ras DNA requires small regions at both ends of the 493 bp conserved region.