Positioning of protein-coding genes on the soybean chloroplast genome

Seven major plastid protein encoding genes were positioned on the soybean chloroplast DNA by heterologous hybridization. These include the genes for the alpha, beta and epsilon subunits of the CF₁ component of ATP synthase (atpA, atpB and atpE respectively), for subunit III of the CF₀ component of ATP synthase (atpH), for the cytochrome f (cytF), for the ‘32 Kd’ thylakoid protein (psbA), and for the large subunit of ribulose-1,5-bisphosphate carboxylase-oxygenase (rbcL), all of which map in the large single copy region. The atpB, atpE and rbcL genes are located in the region adjacent to one of the segments of the inverted repeat. The genetic organization of the soybean chloroplast DNA is compared to that of other plastid genomes.     

Cloning and sequencing of the hemA gene of Rhodobacter capsulatus and isolation of a δ-aminolevulinic acid-dependent mutant strain

Summary The Rhodobacter capsulatus hemA gene, coding for the enzyme -aminolevulinic acid synthase (ALAS), was isolated from a genome bank by hybridization with a hemT probe from Rhodobacter sphaeroides. Subcloning of the initial 3.9 kb HindIII fragment allowed the isolation of a 2.5 kb HindIII-BglII fragment which was able to complement the -aminolevulinic acid-requiring (ALA-requiring) Escherichia coli mutant SHSP19. DNA sequencing revealed an open reading frame coding for a protein with 401 amino acids which displayed similarity to the amino acid sequences of other known ALASs. However, no resemblance was seen to the HemA protein of E. coli K12. Based on the sequence data, an ALA-requiring mutant strain of R. capsulatus was constructed by site-directed insertion mutagenesis. Introduction of a plasmid, containing the hemA gene of R. capsulatus on the 3.9 kb HindIII fragment, restored ALA-independent growth of the mutant indicating that there is only one gene for ALA biosynthesis in R. capsulatus. Transfer of the R factor pRPS404 and hybridization analysis revealed that the ALAS gene is not located within the major photosynthetic gene cluster.Part of this research was presented at the Symposium on Molecular Biology of Membrane-Bound Complexes in Phototrophic Bacteria, Freiburg, FRG, 2–5 August 1989     

Aspects of Subunit Interactions in the Chloroplast ATP Synthase (I. Isolation of a Chloroplast Coupling Factor 1-Subunit III Complex from Spinach Thylakoids)

A chloroplast ATP synthase complex (CF1 [chloroplast-coupling factor 1]-CF0 [membrane-spanning portion of chloroplast ATP synthase]) depleted of all CF0 subunits except subunit III (also known as the proteolipid subunit) was purified to study the interaction between CF1 and subunit III. Subunit III has a putative role in proton translocation across the thylakoid membrane during photophosphorylation; therefore, an accurate model of subunit inter-actions involving subunit III will be valuable for elucidating the mechanism and regulation of energy coupling. Purification of the complex from a crude CF1-CF0 preparation from spinach (Spinacia oleracea) thylakoids was accomplished by detergent treatment during anion-exchange chromatography. Subunit III in the complex was positively identified by amino acid analysis and N-terminal sequencing. The association of subunit III with CF1 was verified by linear sucrose gradient centrifugation, immunoprecipitation, and incorporation of the complex into asolectin liposomes. After incorporation into liposomes, CF1 was removed from the CF1-III complex by ethylenediaminetetracetate treatment. The subunit III-proteoliposomes were competent to rebind purified CF1. These results indicate that subunit III directly interacts with CF1 in spinach thylakoids.     

甜菜ATP合酶β亚基基因atpB的克隆、序列分析及进化

atpB基因编码ATP合酶β亚基,是光合作用中的重要基因。ATP合酶是生物体内能量代谢的关键酶,参与氧化磷酸化和光合磷酸化反应。利用植物叶绿体基因组在进化过程中高度保守的特点,根据已知植物烟草、水稻和菠菜等的叶绿体基因组全序列,设计并合成了一对引物,以甜菜叶绿体DNA为模板,PCR扩增得到包含atpB 完整基因（GenBank登录号为 DQ067451）在内的一段序列,测序与序列分析表明：该克隆片段全长2 293 bp,其中包括有1 497 bp的编码区序列,推测编码498个氨基酸。同源性比较,该克隆基因与烟草、菠菜、油菜、水稻atpB基因的核苷酸序列同源性分别为90.92%、95.79%、87.71%和86.37%,推测的氨基酸序列同源性分别为94.58%、97.19%、92.17%和91.97%。同时,建立了几种植物的氨基酸序列系统进化树。     

Nucleotide sequence of cDNA clones encoding the complete precursor for subunit delta of thylakoid-located ATP synthase from spinach

The nucleotide sequence of the entire nuclear-encoded precursor for subunit delta of the ATP synthase from spinach thylakoid membranes was determined by cDNA sequencing. Appropriate recombinant DNAs were selected from pBR322 and lambda gt11 libraries made from polyadenylated RNA of greening spinach seedlings. The mature protein consists of 187 amino acid residues corresponding to a molecular weight of 20468. The precursor protein (257 amino acid residues; M _r=27676) is probably processed between a Met-Val bond. The predicted secondary structure of the transit sequence (70 residues; 7.2 kDa) resembles that of the Rieske Fe/S polypeptide, but shows little similarity with those of stromal or luminal proteins. The comparison of the chloroplast delta amino acid sequence with the published delta sequences from respiratory ATP synthases of bacterial and mitochondrial sources and from the thylakoid ATP synthase of the cyanobacterium Synechococcus suggests substantial divergence at the genic level although structural elements appear to be remarkably conserved.     

Fourteen protomers compose the oligomer III of the proton-rotor in spinach chloroplast ATP synthase

Three fundamentally different chloroplast ATP synthase samples of increasing complexity were visualized by atomic force microscopy. The samples are distinguishable in respect to the isolation technique, the detergent employed, and the final subunit composition. The homo-oligomer III was isolated following SDS treatment of ATP synthase, the proton-turbine III+IV was obtained by blue-native electrophoresis, and complete CFO was isolated by anion exchange chromatography of NaSCN splitted ATP synthase. In all three ATP synthase subcomplexes 14 and only 14 circularly arranged subunits III composed the intact transmembrane rotor. Therefore, 14 protomers built the membrane-resident proton turbine. The observed stoichiometry of 14 is not a biochemical artifact or affected by natural growth variations of the spinach, as previously suggested. A correlation between the presence of subunit IV in the imaged sample and the appearance of a central protrusion in the narrower orifice of the oligomeric cylinder III14 has been observed. In contrast to current predictions, in chloroplast FO the subunit IV can be found inside the cylinder III14 and not at its periphery, at least in the reconstituted 2D arrays imaged.     

Restriction fragment length polymorphism and chromosome mapping of a mouse homeo box gene,Hox-2.1

Restriction endonuclease fragment length polymorphisms (RFLPs) were found using the cDNA probe Hox-2.1 for the homeo box-2.1 gene in the mouse. Polymorphism was detected in restriction patterns generated by fragments fromHindIII digestion. The great majority of laboratory strains of mice carries theHox-2.1 ^a allele. Only two laboratory strains carry theHox-2.1 ^b allele. Among strains of wild origin, the European subspecies (Mus m. domesticus, M. m. brevirostris, andM. m. musculus) and some Asian subspecies (M. m. castaneus) carry theHox-2.1 ^a allele. The subspecies from Far Eastern countries (M. m. molossinus, Chinese mice of wild origin, andM. m. yamashinai) carry theHox-2.1 ^ballele. Using the RFLP, theHox-2.1 gene was mapped on chromosome 11. Three-point cross test data showed that the recombination frequency is 29.6% between theHba and theHox-2.1 genes and 23.5% between theHox-2.1 and theEs-3 genes. The gene order ofHba-Hox-2.1-Es-3 has been confirmed.     

Complete cloning of the chloroplast genome of safflower in λ EMBL3 and mapping of 23S and 16S rRNA genes

Summary A recombinant DNA library was constructed from partial BamHI or MboI digests of safflower (Carthamus tinctorius L.) chloroplast DNA, in the BamHI site of EMBL3. Seventeen recombinants, selected by chromosome walking, were found to contain overlapping fragments of the entire chloroplast genome. These clones were mapped using single and double digests of BamHI, EcoRI and HindIII. cDNAs synthesized from isolated 16S and 23S chloroplast rRNAs were used to map the ribosomal RNA genes relative to physical maps of the above restriction enzymes. The mapped positions of the rRNA genes for the safflower chloroplast DNA are in good agreement with previously published data for tobacco, spinach and several other higher plants.