香蕉rbcS基因启动子的克隆及序列分析

以巴西香蕉为材料,根据已经获得的香蕉1,5-二磷酸核酮糖羧化/加氧酶小亚基基因的全长cDNA序列设计1对专一引物,通过PCR扩增得到了香蕉1,5-二磷酸核酮糖羧化/加氧酶小亚基的基因组全长,序列长811 bp,含有2个内含子。根据其基因组序列设计引物,采用SEFA-PCR方法,以总DNA为模板克隆了香蕉1,5-二磷酸核酮糖羧化/加氧酶小亚基基因的启动子序列,长1 681 bp。用PLACE软件分析发现该序列具有启动子的基本元件TATA-box、CAAT-box,包含多个胁迫诱导元件,如光诱导元件、赤霉素、低温诱导元件、昼夜节律调控元件等。该序列的克隆与分析为进一步研究香蕉1,5-二磷酸核酮糖羧化/加氧酶小亚基基因的表达调控奠定了基础。     

Restriction fragment map of sugar beet (Beta vulgaris L.) chloroplast DNA

Summary A restriction endonuclease fragment map of sugar beet chloroplast DNA (ctDNA) has been constructed with the enzymes SmaI, PstI and PvuII. The ctDNA was found to be contained in a circular molecule of 148.5 kbp. In common with many other higher plant ctDNAs, sugar beet ctDNA consists of two inverted repeat sequences of about 20.5 kbp separated by two single-copy regions of different sizes (about 23.2 and 84.3 kbp). Southern hybridization analyses indicated that the genes for rRNAs (23S+16S) and the large subunit of ribulose 1,5-bisphosphate carboxylase were located in the inverted repeats and the large single-copy regions, respectively.     

The gene for the large subunit of ribulose-1,5-bisphosphate carboxylase in Euglena gracilis chloroplast DNA: location, polarity, cloning, and evidence for an intervening sequence

The gene for the large subunit (LS) of ribulose-1,5,-bisphosphate carboxylase of Euglena gracilis Z chloroplast DNA has been mapped by heterologous hybridization with DNA restriction fragments containing internal sequences from the Zea mays and Chlamydomonas reinhardii LS genes. The Euglena LS gene which has the same polarity as the Euglena rRNA genes has been located with respect to Pst I, Pvu I, and HindIII sites within the Eco RI fragment Eco A. The region of Euglena chloroplast DNA complementary to an 887 bp internal fragment from the Chlamydomonas chloroplast LS gene is interrupted by a 0.5-1.1 kbp non-complementary sequence. This is the first chloroplast protein gene located on the Euglena genome, and the first evidence for an intervening sequence within any chloroplast protein gene.     

Cyanelle DNA from Cyanophora paradoxa

Summary Cyanelles which have been found in few eukaryotic organisms are photosynthetically active organelles which strikingly resemble cyanobacteria. The complexity of the cyanelle genome in Cyanophora paradoxa (127 Kbp) is too low to consider them as independent organisms in a symbiotic relationship. In order to correlate cyanelle genome and gene structure with those of plastid chromosomes of other plants, a circular map of the cyanelle DNA from Cyanophora paradoxa (strain LB555 UTEX) has been constructed using the restriction endonucleases SalI (generating 6 DNA fragments), BamHI (6), SalI (5), XhoI (9), and BglII (19).Besides the rRNA genes (16S, 23S, 5S), genes for 14 proteins have been located on this circular map. Among those are components of several multienzyme complexes involved in photosynthetic electron transport, as well as the large subunit of ribulose-1,5-bisphosphate carboxylase and two ribosomal proteins. All the probes used, were derived from a collection of spinach chloroplast DNA clones. Hybridization experiments showed signals to DNA fragments primarily from the large single-copy region of cyanelle DNA. The arrangement of genes on cyanelle DNA is different from that on spinach chloroplast DNA. However, genes which have been shown to be cotranscribed in spinach chloroplasts are also clustered on cyanelle DNA.Abbreviations Kbp 10³ base pairs - Rubisco ribulose-1,5-bisphosphate carboxylase/oxygenase holoenzyme     

Chloroplast gene for Mr 32000 polypeptide of photosystem II in Euglena gracilis is interrupted by four introns with conserved boundary sequences

The gene for the Mr 32000 herbicide binding polypeptide of photosystem II has previously been mapped to the 5 kbp EcoRI fragment Eco I of Euglena gracilis chloroplast DNA. The nucleotide sequence of 3324 bp of Eco I, containing the psbA locus, has been determined. This locus encodes a polypeptide of 345 amino acids which is co-linear with, and has 86% derived amino acid sequence homology to sequences derived from four higher plants chloroplast psbA loci. The Euglena psbA gene contains four introns of size 435, 443, 434, and 617 bp. The four introns have conserved boundary sequences of the type previously described in the Euglena chloroplast gene (rbcL) for the large subunit of ribulose-1,5-bisphosphate carboxylase (Koller et al., Cell 36, 545-553, 1984).     

Cotranscription, deduced primary structure, and expression of the chloroplast-encoded rbcL and rbcS genes of the marine diatom Cylindrotheca sp. strain N1.

The primary structure of ribulose-1,5-bisphosphate carboxylase/oxygenase from the marine diatom Cylindrotheca sp. strain N1 has been determined. Unlike higher plants and green algae, the genes encoding the large and the small subunits of ribulose-1,5-bisphosphate carboxylase/oxygenase are chloroplast-encoded and closely associated (Hwang and Tabita, 1989). The rbcL and rbcS genes in strain N1 are cotranscribed and are separated by an intergenic region of 46 nucleotide base pairs. Ribosome binding sites and a potential promoter sequence were highly homologous to previously determined chloroplast sequences. Comparison of the deduced primary structure of the diatom large and small subunits indicated significant homology to previously determined sequences from bacteria; there was much less homology to large and small subunits from cyanobacteria, green algae, and higher plants. Although high levels of recombinant diatom large subunits could be expressed in Escherichia coli, the protein synthesized was primarily insoluble and incapable of forming an active hexadecameric enzyme. Edman degradation studies indicated that the amino terminus of the large subunit isolated from strain N1 was blocked, suggesting that the mechanism responsible for processing and subsequent assembly of large and small subunits resembles the situation found with other eucaryotic ribulose-1,5-bisphosphate carboxylase/oxygenase proteins, despite the distinctive procaryotic gene arrangement and sequence homology.     

The nucleotide sequence of the tobacco chloroplast gene for the large subunit of ribulose-l,5-bisphosphate carboxylase/oxygenase

The gene for the large subunit (LS) of ribulose-l,5-bisphosphate carboxylase/oxygenase (RuBPCase/ Oase) from tobacco has been cloned in pBR322 and sequenced. The coding region contains 1431 bp (477 codons). The deduced arnino acid sequence of tobacco LS protein shows 90% homology with those of maize and spinach LS. The positions in the gene corresponding to the 5' and the 3' ends of tobacco LS mRNA have been located on the DNA sequence by the S1 nuclease mapping procedure. The LS gene promoter sequence has homology with Escherichia coli promoter sequences; its terminator sequence is capable of forming a stem-and-loop structure. A sequence GGAGG, which is complementary to a sequence near the 3' end of tobacco chloroplast 16S rRNA and a putative ribosome binding site, occurs 6–10 bp upstream from the initiation codon.     

Gene organization of chloroplast DNA from the broad bean Vicia faba

Summary Six protein genes have been mapped on broad bean chloroplast DNA by Southern hybridization using the tobacco chloroplast genes as probes. In broad bean chloroplast DNA, the genes for the and subunits of proton-translocating ATPase and the 32,000 dalton thylakoid membrane protein are located near the large subunit gene of ribulose-1,5-bisphosphate carboxylase/oxygenase. The gene for the subunit of proton-translocating ATPase is distantly located from the and genes. The gene for the ribosomal protein CS19 was found close to the ribosomal RNA operon. The gene organization of broad bean chloroplast DNA is therefore quite different from that of tobacco chloroplast DNA. The nucleotide sequence of the spacer region between the large subunit and the genes of the broad bean has been determined. Conserved sequences are found among the putative promoter regions of the chloroplast protein genes.     

Chlorella chloroplast DNA sequence containing a gene for the large subunit of ribulose-1,5-bisphosphate carboxylase/oxygenase and a part of a possible gene for the β′ subunit of RNA polymerase

The sequence of a 2782 bp fragment of the chloroplast genome of Chlorella ellipsoidea has been determined. The region includes the entire gene (rbcL) for the large subunit (LS) of ribulose-1,5-bisphosphate carboxylase/oxygenase and a sequence (rpoC-like) similar to part of the gene for the subunit of E. coli RNA polymerase which is oriented in same direction as rbcL. The arrangement is rpoC-like — 446 bp — rbcL. The rbcL gene codes for a polypeptide of 475 amino acids whose sequence shows 88% homology with those of tobacco and spinach, 94% homology with that of Chlamydomonas, and 85% homology with that of Anacystis. The putative rbcL promoter sequence has homology with E. coli promoter sequences and its putative terminator sequence is capable of forming a stem-and-loop structure.     

The DNA-binding protease,CND41, and the degradation of ribulose-1,5-bisphosphate carboxylase/oxygenase in senescent leaves of tobacco

Plastids bear their own genome, organized into DNA–protein complexes (nucleoids). Recently, we identified a DNA-binding protease (CND41) in the chloroplast nucleoids of cultured tobacco (Nicotiana tabacum L.) cells. In this study, we examine the biochemical function of this novel DNA-binding protease, particularly in senescent leaves, because antisense tobacco with a reduced amount of CND41 showed retarded senescence. Nitrogen-depletion experiments clearly showed that CND41 antisense tobacco maintained green leaves and constant protein levels, especially ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco), throughout the whole plant, whereas wild-type tobacco showed marked senescence and the reduction of protein levels in the lower leaves. In vitro analyses confirmed that CND41 showed proteolytic activity at physiological pH when denatured Rubisco was used as the substrate. These results suggest that CND41 is involved in Rubisco degradation and the translocation of nitrogen during senescence. The possible regulation of protease activity of CND41 through DNA-binding is discussed.Abbreviations CABP 2-Carboxyarabinitol-1,5-bisphosphate - CBB Coomassie Brilliant Blue - GS Glutamine synthetase - OEC33 The extrinsic 33-kDa protein in the oxygen-evolving complex - Rubisco Ribulose 1,5-bisphosphate carboxylase/oxygenase     

Chloroplast DNA in Pinus monticola

Summary Restriction sites on the chloroplast genome of Pinus monticola have been mapped, and the gene for the large subunit of ribulose bisphosphate carboxylase/oxygenase, the genes for the photosystem II polypeptides psbA, psbD and psbC, and the 16S and 23S ribosomal RNA genes have been located. The genome lacks the large inverted repeat characteristic of most angiosperms. The gene order is similar to that found in P. radiata. The presence of dispersed repeated sequences is likely. Two structural features, lack of a large inverted repeat and the presence of dispersed repeats, may confer a degree of variability on the genome which will prove useful in studies of population structure.     

Chlorella sorokiniana rbcL基因的克隆与序列分析及其与18S rRNA基因在分类学上的比较

Rubisco大亚基基因(rbcL)广泛用于系统学分析中,在本文中以Chlorella sorokiniana CS-01叶绿体基因组DNA为模板,PCR扩增rbcL全长编码区序列,序列分析表明:该片段全长1428 bp,其中包括1425 bp的编码区序列,编码475个氨基酸,经BLAST比对发现同源性最高的为Chlorella sp.IFRPD 1018,同源性达到99.2%。同时构建系统发育树,结果显示Chlorellasorokiniana CS-01与Chlorella sp.IFRPD 1018在同一分支中。18S rDNA序列分析表明:该片段全长1740 bp,经BLAST比对发现同源性最高的为Chlorella sorokiniana,同源性达到99.7%,构建系统发育树显示Chlorella sorokiniana CS-01与两株Chlorellasorokiniana在同一分支中,支持率达到100%。但是18S rDNA序列构建的系统发育树鉴定的主要分支很少,即使鉴定出分支,该分支的支持率也比较弱,而rbcL基因序列构建的系统发育树则分支清晰且支持率较高。可见18S rDNA序列比rbcL...