Synthesis and uptake of cytoplasmically synthesized pyruvate, pi dikinase polypeptide by chloroplasts

Polyadenylated RNA was isolated from maize leaves and translated in vitro. In agreement with a previous report by others, we found among the translation products a 110-kilodalton pyruvate orthophosphate dikinase (PPDK) precursor that is about 16 kilodaltons larger than the polypeptide isolated from cells. This maize PPDK precursor polypeptide was taken up from the translation product mixture by intact spinach chloroplasts and yielded a mature PPDK polypeptide (94 kilodaltons). The uptake and processing support the proposal that the extra 16-kilodalton size of the polypeptide from in vitro translation of maize leaf mRNA represents a transit sequence which is cleaved after its entry into chloroplasts. Moreover, these results provide additional evidence that in vivo in maize leaf cells PPDK polypeptide is synthesized in the cytoplasm and is transported into the chloroplasts.

Location of PPDK in C₃ plant leaves was investigated by immunochemical analysis. Intact chloroplasts were isolated from leaves of spinach, wheat, and maize. A protein blot of stromal protein in each case gave rise to bands corresponding to authentic PPDK polypeptide. This result indicates that PPDK is present in chloroplasts of C₃ plant leaves as it is in the case of C₄ plants.

     

Chloroplast mutations induced by 9-aminoacridine hydrochloride are independent of the<Emphasis Type="Italic"> plastome mutator</Emphasis> in<Emphasis Type="Italic"> Oenothera</Emphasis>

Oenothera plants homozygous for the recessive plastome mutator allele (pm) show chloroplast DNA (cpDNA) mutation frequencies that are about 1,000-fold higher than spontaneous levels. The pm-encoded gene product has been hypothesized to have a function in cpDNA replication, repair and/or mutation avoidance. Previous chemical mutagenesis experiments with the alkylating agent nitroso-methyl urea (NMU) showed a synergistic effect of NMU on the induction of mutations in the pm line, suggesting an interaction between the pm-encoded gene product and one of the repair systems that corrects alkylation damage. The goal of the experiments described here was to examine whether the pm activity extends to the repair of damage caused by non-alkylating mutagens. To this end, the intercalating mutagen, 9-aminoacridine hydrochloride (9AA) was tested for synergism with the plastome mutator. A statistical analysis of the data reported here indicates that the pm-encoded gene product is not involved in the repair of the 9AA-induced mutations. However, the recovery of chlorotic sectors in plants derived from the mutagenized seeds shows that 9AA can act as a mutagen of the chloroplast genome.Communicated by R. Hagemann     

Complementation of anAspergillus nidulans mutation by a gene from the basidiomyceteCoprinus cinereus

TheCoprinus cinereus acu-7 gene, encoding isocitrate lyase, has been cotransformed into strains ofAspergillus nidulans carrying anacuD mutation in the corresponding structural gene. Transformants with high copy numbers of integratedacu-7 sequences were able to grow on acetate as the sole carbon source, indicating complementation of theacuD mutation. Northern blot analysis showed that theC. cinereus gene was transcribed constitutively and not regulated normally by acetate.     

The binding motifs forAc transposase are absolutely required for excision ofDs1 in maize

A reverse genetic system for studying excision of the transposable elementDs1 in maize plants has been established previously. In this system, theDs1 element, as part of the genome of maize streak virus (MSV), is introduced into maize plants via agroinfection. In the presence of theAc element, excision ofDs1 from the MSV genome results in the appearance of viral symptoms on the maize plants. Here, we used this system to study DNA sequences requiredin cis for excision ofDs1. TheDs1 element contains theAc transposase binding motif AAACGG in only one of its subterminal regions (defined here as the 5′ subterminal region). We showed that mutation of these motifs abolished completely the excision capacity ofDs1. This is the first direct demonstration that the transposase binding motifs are essential for excision. Mutagenesis with oligonucleotide insertions in the other (3′) subterminal region resulted in elements with either a reduced or an increased excision efficiency, indicating that this subterminal region also has an important function.     

A new mutation inEscherichia coli K12,isfA,which is responsible for inhibition of SOS functions

A new mutation inEscherichia coli K12,isfA, is described, which causes inhibition of SOS functions. The mutation, discovered in a ΔpolA ⁺ mutant, is responsible for inhibition of several phenomena related to the SOS response inpolA ⁺ strains: UV- and methyl methanesulfonate-induced mutagenesis, resumption of DNA replication in UV-irradiated cells, cell filamentation, prophage induction and increase in UV sensitivity. TheisfA mutation also significantly reduces UV-induced expression of β-galactosidase fromrecA::lacZ andumuC′::lacZ fusions. The results suggest that theisfA gene product may affect RecA^* coprotease activity and may be involved in the regulation of the termination of the SOS response after completion of DNA repair. TheisfA mutation was localized at 85 min on theE. coli chromosome, and preliminary experiments suggest that it may be dominant to the wild-type allele.     

Nuclear Gene-Induced Plastome Mutations in OENOTHERA HOOKERI. I. Genetic Analysis

A nuclear gene mutation in Oenothera hookeri increases the frequency of variegated sectors. The gene is recessive; the variegation is cytoplasmically transmitted. Once variegation is induced, the mutant gene is not required for its continued expression. The induced sectors may differ one from another. The gene expresses unique patterns of penetrance and of maternal effect. The genetic data implicate the chloroplasts as the site for the expression of variegation. The chloroplasts of O. parviflora are also subject to the action of the nuclear gene. Possible mechanisms by which a gene might cause chloroplasts to mutate are discussed.     

Cloning of the sterol C-14 reductase gene of the tomato pathogenic fungusSeptoria lycopersici and its complementation of theerg-3 mutation ofNeurospora crassa

We have cloned theerg-3 gene, which encodes the ergosterol biosynthetic enzyme sterol C-14 reductase, from the tomato pathogenic fungusSeptoria lycopersici. Its nucleotide sequence, reported here, encodes a 512-amino-acid polypeptide with 54% sequence identity to sterol C-14 reductase ofNeurospora crassa. TheSeptoria gene complemented the pisatin-sensitive, tomatine-resistant and female-sterile phenotypes of aNeurospora erg-3 mutant.     

Complete XY gonadal dysgenesis due to p.D293N homozygous mutation in theNR5A1 gene: a case study

TheSRY gene (sex-determining region on the Y chromosome; MIM *480000) is responsible for initiating male gonadal development. However, only 15–20% of the cases of XY gonadal dysgenesis are due to mutations in its sequence. Recently, heterozygous mutations in theNR5A1 gene (nuclear receptor subfamily 5, group A, member 1; MIM +184757) have been described in association with ovarian failure and disorders of testis development with or without adrenal failure. Here we describe a case of XY complete gonadal dysgenesis due to a p.D293N homozygous mutation in theNR5A1 gene, with normalSRY and no adrenal failure.     

An unusual suicidal interaction inEscherichia coli involving nucleoid protein H-NS

A conditional-lethal mutation (rpoB364) mapping to the gene that encodes the β-subunit of RNA polymerase was obtained inEscherichia coli. This mutation caused cell filamentation at the restrictive growth temperature and partial derepression of the osmotically regulatedproU operon at the permissive growth temperature. Even under the latter condition, transformants of therpoB364 mutant strain carrying the plasmid vector pACYC184, but not those carrying otherpolA-dependent multicopy plasmids such as pACYC177 or pBR322, were killed in early stationary phase; one class of suppressor mutants isolated as survivors within these transformant colonies were further derepressed forproU-lac expression, and the mutation in each of several independent clones of this class was mapped tohns, the gene that encodes the protein H-NS of theE. coli nucleoid. Thehns mutations did not suppress the conditional-lethal growth phenotype of therpoB364 mutant itself. On the other hand, intracellular overproduction of guanosine 3’, 5’-bispyrophosphate (ppGpp) in therpoB364 strain alleviated both the growth inhibition at the restrictive temperature and the pACYC184-mediated stationary-phase lethality. Upon subcloning into pUC19 or into pACYC177, a 105-bpXbal-HindIII fragment from pACYC184 was shown to be sufficient to confer therpoB364 hns ⁺-dependent lethal phenotype. We suggest that the level in stationary-phase cultures of a gene product(s) that interacts with the pACYC184 DNA fragment is altered in therpoB364 hns+derivative (compared to that inrpoB+ orrpoB364 hns strains) and that this results in cell suicide.     

Altered expression of the<Emphasis Type="Italic"> Arabidopsis</Emphasis> ortholog of<Emphasis Type="Italic"> DCL</Emphasis> affects normal plant development

The DCL (defective chloroplasts and leaves) gene of tomato (Lycopersicon esculentum Mill.) is required for chloroplast development, palisade cell morphogenesis, and embryogenesis. Previous work suggested that DCL protein is involved in 4.5S rRNA processing. The Arabidopsis thaliana (L.) Heynh. genome contains five sequences encoding for DCL-related proteins. In this paper, we investigate the function of AtDCL protein, which shows the highest amino acid sequence similarity with tomato DCL. AtDCL mRNA was expressed in all tissues examined and a fusion between AtDCL and green fluorescent protein (GFP) was sufficient to target GFP to plastids in vivo, consistent with the localization of AtDCL to chloroplasts. In an effort to clarify the function of AtDCL, transgenic plants with altered expression of this gene were constructed. Deregulation of AtDCL gene expression caused multiple phenotypes such as chlorosis, sterile flowers and abnormal cotyledon development, suggesting that this gene is required in different organs. The processing of the 4.5S rRNA was significantly altered in these transgenic plants, indicating that AtDCL is involved in plastid rRNA maturation. These results suggest that AtDCL is the Arabidopsis ortholog of tomato DCL, and indicate that plastid function is required for normal plant development.Abbreviations DCL Defective chloroplasts and leaves - GFP Green fluorescent protein     

Expression of theRSI-1 gene during development of roots and reproductive organs in tomato

TheRSI-1 gene is expressed in pericycle cells just prior to the first round of cell division for lateral root development in tomato. We transformed tomato plants with theRSI-1 gene promoter linked to a GUS reporter gene. GUS activity was detected not only at the sites of initiation for lateral and adventitious roots, but also at the primary root tip. Expression of the fusion gene was also regulated at various stages of tissue development: in particular, during the formation of reproductive organs such as pollen and fruit Overexpression of theRSI-1 gene in either the sense or antisense orientation resulted in arrest of fruit development and seed germination. TheRSI-1 gene product, therefore, may play a role in auxin-induced cell division in various developing tissues. Inter and intramolecular disulfide bridges between cysteines rich in the RSI-1 protein might be involved in cell-wall modifications that are essential for new cell division. These hypotheses for the role of theRSI-1 gene in lateral-root and reproductive-organ development remain to be tested.     

Development of inflorescences inArabidopsis thaliana

Those mutants were studied whose defects resulted in the morphological changes of inflorescences inArabidopsis thaliana. We characterized newly isolatedcorymbosa mutants andacaulis5 mutants. Thecorymbosa1-1 mutation was caused by the defects in the elongation of pedicels and the previously identifiederecta mutation belonged to this class. Thecorymbosa2-1 mutation was caused mainly by the increase of the number of the floral buds in the inflorescence. The expression of theERECTA gene whose defect resulted to the corymbose inflorescence was analyzed. TheERECTA gene was expressed in subsets of cells in both the peripheral zone and central zone and was thought to have important role for the development of inflorescences. The phenotypes of theacaulis5 mutation was pronounced just after the transition from the vegetative to reproductive growth phase. We found that the expressions of the genes for EXGT-A1 and γ-TIP were drastically reduced in theacaulis5 mutants. The extended abstract of a paper presented at the 13th International Symposium in Conjugation with Award of the International Prize for Biology “Frontier of Plant Biology”