BPG3 is a novel chloroplast protein that involves the greening of leaves and related to brassinosteroid signaling

Brassinosteroids are plant steroid hormones that regulate plant organs and chloroplast development. The detailed molecular mechanism for plant development by BR signaling is yet to be revealed, and many points regarding the relationship between BR signaling and chloroplast development remain unknown. We identify here the dominant mutant Brz-insensitive-pale green3-1D (bpg3-1D) from the Arabidopsis FOX lines that show reduced sensitivity to the chlorophyll accumulation promoted by the BR biosynthesis inhibitor, Brassinazole (Brz), in the light. BPG3 encodes a novel chloroplast protein that is evolutionally conserved in bacteria, algae, and higher plants. The expression of BPG3 was induced by light and Brz. The inhibition of electron transport in photosystem II of the chloroplasts was detected in bpg3-1D. These results suggest that BPG3 played an important role in regulating photosynthesis in the chloroplast under BR signaling.     

Plastid translation and transcription genes in a non-photosynthetic plant: intact, missing and pseudo genes

The non-photosynthetic, parasitic flowering plant Epifagus virginiana has recently been shown to contain a grossly reduced plastid genome that has lost many photosynthetic and chloro-respiratory genes. We have cloned and sequenced a 3.9 kb domain of plastid DNA from Epifagus to investigate the patterns of evolutionary change in such a reduced genome and to determine which genes are still present and likely to be functional. This 3.9 kb domain is colinear with a 35.4 kb region of tobacco chloroplast DNA, differing from it by a minimum of 11 large deletions varying in length from 354 bp to 11.5 kb, as well as by a number of small deletions and insertions. The nine genes retained in Epifagus encode seven tRNAs and two ribosomal proteins and are coextensive and highly conserved in sequence with homologs in photosynthetic plants. This suggests that these genes are functional in Epifagus and, together with evidence that the Epifagus plastid genome is transcribed, implies that plastid gene products play a role in processes other than photosynthesis and gene expression. Genes that are completely absent include not only photosynthetic genes, but surprisingly, genes encoding three subunits of RNA polymerase, four tRNAs and one ribosomal protein. In addition, only pseudogenes are found for two other tRNAs. Despite these defunct tRNA genes, codon and amino acid usage in Epifagus protein genes is normal. We therefore hypothesize that the expression of plastid genes in Epifagus relies on the import of nuclear encoded tRNAs and RNA polymerase from the cytoplasm.     

超表达拟南芥2-烯醛还原酶基因对烟草抗旱性的作用机理分析

为研究是否可以利用2-烯醛还原酶(AER)来清除活性氧下游的醛自由基达到提高植物的抗旱性,以超表达拟南芥AER基因烟草和野生型烟草(SR)为研究材料,利用干旱胁迫处理进行抗旱性分析,测定了干旱胁迫及复水后各个烟草株系的生物量、光合速率、叶绿素荧光参数、叶绿素含量、MDA和H2O2含量等指标。结果显示:(1)干旱胁迫下,转基因烟草株系的生物量、叶绿素含量、净光合速率、PSⅡ最大光化学效率及H2O2的清除能力均显著高于对照;(2)复水之后,烟草植株的各项生理指标都得到一定程度的恢复,而转基因株系相比于野生型恢复迅速,恢复能力更强。研究认为,超表达AER基因可以通过清除活性氧及其下游醛自由基来提高烟草的抗旱能力。     

The plastid ribosomal proteins. Identification of all the proteins in the 30 S subunit of an organelle ribosome (chloroplast)

Identification of all the protein components of a plastid (chloroplast) ribosomal 30 S subunit has been achieved, using two-dimensional gel electropholesis, high performance liquid chromatography purification, N-terminal sequencing, polymerase chain reaction-based screening of cDNA library, nucleotide sequencing, and mass spectrometry (electrospray ionization, matrix-assisted laser desorption/ionization time-of-flight, and reversed-phase HPLC coupled with electrospray ionization mass spectrometry). 25 proteins were identified, of which 21 are orthologues of all Escherichia coli 30 S ribosomal proteins (S1-S21), and 4 are plastid-specific ribosomal proteins (PSRPs) that have no homologues in the mitochondrial, archaebacterial, or cytosolic ribosomal protein sequences in data bases. 12 of the 25 plastid 30 S ribosomal proteins (PRPs) are encoded in the plastid genome, whereas the remaining 13 are encoded by the nuclear genome. Post-translational transit peptide cleavage sites for the maturation of the 13 cytosolically synthesized PRPs, and post-translational N-terminal processing in the maturation of the 12 plastid synthesized PRPs are described. Post-translational modifications in several PRPs were observed: alpha-N-acetylation of S9, N-terminal processings leading to five mature forms of S6 and two mature forms of S10, C-terminal and/or internal modifications in S1, S14, S18, and S19, leading to two distinct forms differing in mass and/or charge (the corresponding modifications are not observed in E. coli). The four PSRPs in spinach plastid 30 S ribosomal subunit (PSRP-1, 26.8 kDa, pI 6.2; PSRP-2, 21.7 kDa, pI 5.0; PSRP-3, 13.8 kDa, pI 4.9; PSRP-4, 5.2 kDa, pI 11.8) comprise 16% (67.6 kDa) of the total protein mass of the 30 S subunit (429.3 kDa). PSRP-1 and PSRP-3 show sequence similarities with hypothetical photosynthetic bacterial proteins, indicating their possible origins in photosynthetic bacteria. We propose the hypothesis that PSRPs form a "plastid translational regulatory module" on the 30 S ribosomal subunit structure for the possible mediation of nuclear factors on plastid translation.     

盐胁迫下CO2加倍对春小麦一些光合功能的影响

 研究了在盐胁迫下CO2浓度加倍对春小麦(Triticum aestivum)青323光合色素含量和一些光合功能的影响。结果表明,盐胁迫降低春小麦叶片单位鲜重叶绿素(Chl)和类胡萝卜素(Car)的含量、叶绿体对光能的吸收能力,Mg2+对两个光系统(PSⅡ和PSⅠ)之间激发能分配的调节能力,以及荧光猝灭速率(△FV/T)。然而,CO2加倍有提高上述各参数的作用,表明高CO2浓度能减轻盐胁迫对光合功能的不利效应。     

Identification and characterization of class 1 <Emphasis Type="Italic">DXS</Emphasis> gene encoding 1-deoxy-<Emphasis Type="SmallCaps">d</Emphasis>-xylulose-5-phosphate synthase,the first committed enzyme of the MEP pathway from soybean

1-Deoxy-d-xylulose-5-phosphate synthase (DXS) catalyses the first committed step of the 2C-methyl-d-erythritol-4-phosphate (MEP) pathway, which is an alternative isoprenoids biosynthetic route that has been recently discovered. In this work, a DXS1-like cDNA (GmDXS1) was isolated from soybean. The full-length cDNA of GmDXS1 encoded 708 amino acid residues with a predicted molecular mass of 76.4 KD. Sequence alignment showed that GmDXS1 had high homology to known DXS proteins from other plant species and contained the conserved N-terminal plastid transit peptide, the N-terminal thiamine binding domain and pyridine binding DRAG domain. Phylogenetic analysis indicated that GmDXS1 belonged to the plant DXS1 cluster. Southern blot analysis indicated that a single copy of GmDXS1 gene existed in soybean genome. Tissue expression analysis revealed that GmDXS1 expressed in all photosynthetic tissues except pod walls and roots. Green fluorescence analysis with the fusion protein 35S:GmDXS1:GFP suggested that GmDXS1 was localized in plastid. The relatively higher photosynthetic pigment content in transgenic tobacco leaves compared to the control implied that GmDXS1 catalyzed the first potential regulatory step in photosynthetic pigment biosynthesis via the MEP pathway.     

海南省首次发现光合软体动物绒毛海天牛北大核心CSCD

本文首次报道了光合软体动物Elysia tomentosa K.R.Jensen,1997在我国海南省的分布情况。2021年9月,本课题组在海南省文昌市云龙湾采集到该物种,通过线粒体基因组核糖体16S rRNA以及组蛋白H3基因(H3)位点部分DNA序列比对,确定该物种为Elysia tomentosa。参考该物种学名并根据其外部形态特征,建议该物种中文学名为“绒毛海天牛”。通过聚合酶链式反应(PCR)鉴定其生活环境中的藻类,确定了该物种共生叶绿体的来源为总状蕨藻(Caulerpa racemose);利用叶绿素荧光诱导曲线,检测了绒毛海天牛的光合荧光特征。这是本课题组在海南省沿海地区发现分布的又一种光合软体动物,进一步丰富了对海南岛沿岸海天牛分布的认知,也为研究光合作用的进化与内共生机理提供新的研究材料。     

Evaluation of the photosynthetic activity in transgenic tobacco plants with altered endogenous cytokinin content: lessons from cytokinin

Cytokinin is known to be involved in many processes related to plastid development and function but the exact role of cytokinin in photosynthesis remains elusive. To investigate more profoundly the effects of cytokinin in this process, the photosynthetic activity of transgenic Pssuipt and 35S:CKX1 tobacco (Nicotiana tabacum) plants with respectively elevated and reduced endogenous cytokinin content was evaluated. Pigment analysis indicated that elevated endogenous cytokinin content resulted in increased pigment content. Functional analysis of the photosynthetic apparatus by chlorophyll a fluorescence and in vitro electron transport measurements clearly showed that changing the endogenous cytokinin content affects the activity of the photosynthetic apparatus. Surprisingly, both an increase as well as a decrease in cytokinin content results in a better photosynthetic performance. Quenching analysis revealed that the initial responses of the photosynthetic apparatus on a dark-light transition are not affected by changed cytokinin content. However, it has an effect on the further kinetic behavior. Taken together, we suggest that cytokinins can induce structural changes in the different parts of the electron transport chain as also demonstrated by the in vitro electron transport measurements.     

Selective inhibition of photosystem II in spinach by tobacco mosaic virus: an effect of the viral coat protein

Leaves of Spinacia oleracea inoculated with tobacco mosaic virus (TMV) strain PV230 develop mild chlorotic and mosaic symptoms of infection. Thylakoid membranes isolated from these infected leaves showed a reduced Fv/Fm ratio for chlorophyll fluorescence kinetics, at 25 degrees C. The photosystem II (PS II)-mediated electron-transport rate was inhibited 50%, whereas PS I activity was unaffected by virus infection. Protein analysis indicated that TMV coat protein was associated with thylakoids, in particular with the PS II fraction. The results demonstrate that TMV-infected S. oleracea shows inhibition of photosynthetic electron transport through PS II. We propose that the inhibition of photosynthetic activity results from the association of viral coat protein with the PS II complex.     

Small single-copy region of plastid DNA in the non-photosynthetic angiosperm Epifagus virginiana contains only two genes. Differences among dicots, monocots and bryophytes in gene organization at a non-bioenergetic locus.

We have determined the nucleotide sequence of a 7 kb (1 kb = 10(3) base-pairs) region that includes the entire small single-copy region (SSC) of the plastid genome of Epifagus virginiana, a non-photosynthetic, parasitic flowering plant. The SSC (4.8 kb) is considerably smaller than those of photosynthetic plants due to the complete deletion of all photosynthetic, chlororespiratory and ribosomal protein genes. This leaves only two genes: a protein gene of 1738 codons whose product is unlikely to be involved in bioenergetic processes and a leucine tRNA gene (trn(LUAG)). Both genes span junctions between the inverted repeat and the SSC, with the consequence that the terminal 20 base-pairs of the repeat is transcribed in both directions and functions both as the 3' end of the tRNA gene and as an internal segment of orf1738. We find that the region of tobacco plastid DNA homologous to Epifagus orf1738 contains a single open reading frame (ORF) of 1901 codons rather than the three ORFs of 1244, 273 and 228 codons originally reported. However, we confirm that the equivalent region of the bryophyte Marchantia contains two genes (1068 and 464 codons) corresponding to the N and C-terminal portions of the dicot protein. In contrast, rice plastid DNA contains a severely truncated pseudogene at this locus.     

Plant cytosolic ribosomal protein S11 and chloroplast ribosomal protein CS17. Their primary structures and evolutionary relationships

We have isolated cDNA clones specific for Arabidopsis thaliana cytosolic ribosomal protein S11 and plastid ribosomal protein CS17, both of which are encoded in the nuclear genome, through the use of the corresponding soybean and pea cDNAs as probes, respectively. The nucleotide sequences of all four cDNAs were determined. The amino acid sequences derived from these cDNA sequences show that the soybean and A. thaliana S11 cDNAs encode proteins that are homologous to rat ribosomal protein S11 and that the pea and A. thaliana CS17 cDNAs encode proteins that are homologous to Escherichia coli ribosomal protein S17. The plant S11 cytosolic ribosomal proteins also show significant sequence similarity to both E. coli ribosomal protein S17 and plastid CS17 indicating that these are all related proteins. Comparison of A. thaliana CS17 with A. thaliana S11 and with E. coli S17 suggests that CS17 is more related to S17 than it is to S11. These results support the idea that the gene encoding CS17 was derived from a prokaryotic endosymbiont and not from a duplication of the eukaryotic S11 gene.