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Query: EC:3.6.3.14 (
ATP synthase
)
7,042
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Cytoplasmic male-sterile lines CMS89 and CMSBaso of sunflower (Helianthus annuus) differ from the fertile lines HA89 and Baso in a mitochondrial DNA sequence in the vicinity of the atpA gene. In addition, the transcriptional pattern of the atpA gene is changed in male-sterile lines compared to fertile ones. Besides one main transcript in the fertile lines, the male-sterile lines additionally show larger transcripts. Investigation of Baso and CMSBaso revealed that the two fertility-restored lines of CMS89 have the same transcripts as CMSBaso or a combination of CMSBaso and CMS89. Comparing the mitochondrial in organello translation products we observed a unique 16 kDa protein, which is expressed in male-sterile lines carrying the H. petiolaris cytoplasm but is not detectable in fertile lines with H. annuus cytoplasm. The 16 kDa protein can also be observed in restored lines but not in H. petiolaris. As the expression of the 16 kDa polypeptide seems to be linked to the interspecific cross between H. petiolaris and H. annuus it may play a role in
CMS
. By different criteria such as molecular mass, isoelectric point and peptide fingerprinting the alpha subunit of the
F1-ATPase
of male-sterile and fertile lines is very similar if not identical.
...
PMID:A mitochondrial 16 kDa protein is associated with cytoplasmic male sterility in sunflower. 171 23
C to U transitions in plant mitochondrial mRNA (RNA editing) lead to amino acid changes as well as to the creation of new initiation or termination codons. We established an in vitro system to assay and to dissect the process of wheat mitochondrial mRNA editing. A deamination mechanism explains most easily the observed C to U transitions. Several fractions of organellar protein participate in the editing machinery. Some of these proteins presumably carry the catalytic activity while others are typical RNA binding proteins and may confer specificity to the 'editosome' complex. To investigate the functional properties of protein products synthesized from unedited mRNAs, we constructed transgenic tobacco plants carrying an unedited gene coding for subunit 9 (ATP9) of the
ATP synthase
complex. The nuclear encoded 'unedited' protein product is targeted to the mitochondria with a heterologous presequence. A significant number of male sterile tobacco plants were obtained suggesting that at least the functional ATP9 protein requires RNA editing. This result suggests a novel approach to obtain artificial male sterile plants by using a physiological effect resulting in
CMS
which mimics the situation found in many natural populations.
...
PMID:RNA editing in wheat mitochondria. 759 81
The gene region coding for subunits alpha and 9 of the mitochondrial
ATP synthase
exhibit an identical DNA sequence in wheat, rye, and the intergeneric hybrid triticale (xTriticosecale Wittmack). However, co-transcripts containing both genes show different sizes depending on the nuclear genotype. To investigate nuclear-mitochondrial interactions leading to this variation, we performed a comparative transcript analysis with various lines carrying defined nuclear and cytoplasmic genotypes. Northern analyses showed that all wheat lines investigated possess a single atpA/atp9 mRNA of 2.6kb, whereas in rye and five independent triticale lines an additional transcript of 2.35kb appeared. Primer-extension and RNase-protection analyses indicate that the co-transcripts of this gene have staggered 5' termini in some lines, whereas the 3' termini seem to be similar in wheat, rye, and triticale. Transcription is initiated at position -338/-339 upstream of the atpA gene in all lines investigated, giving rise to a 2.6-kb mRNA. In rye and triticale, staggered 5' termini were observed closer to the translational start. The DNA sequences upstream of these termini exhibit homology to plant mitochondrial-processing sites, therefore the proximal 5' ends are most probably generated by RNA processing. As the processing event occurs more frequently in triticale carrying the Triticum timopheevi cytoplasm, trans-acting factors from rye are likely to interact with other cytoplasmic factors resulting in the observed RNA modification. Most interestingly, the T. timopheevi cytoplasm inducing male sterility in alloplasmic wheat, fails to generate the
CMS
phenotype in triticale. The data support our hypothesis that nuclear factors affect mitochondrial gene expression and thus control sexual fertility in wheat and triticale.
...
PMID:The mitochondrial atpA/atp9 co-transcript in wheat and triticale: RNA processing depends on the nuclear genotype. 859 58
Mitochondrial biogenesis and function depend upon the interaction of mitochondrial and nuclear genomes. Forward genetic analysis of mitochondrial function presents a challenge in organisms that are obligated to respire. In the S-cytoplasmic male sterility (
CMS
-S) system of maize, expression of mitochondrial open reading frames (orf355-orf77) conditions collapse of developing haploid pollen. Nuclear restorer-of-fertility mutations that circumvent pollen collapse are often homozygous lethal. These spontaneous mutations potentially result from disruption of nuclear genes required for mitochondrial gene expression, in contrast to homozygous-viable restorer-of-fertility alleles that function to block or compensate for the expression of mitochondrial
CMS
genes. Consistent with this hypothesis, the homozygous-lethal restoring allele historically designated RfIII was shown to be recessive in diploid pollen produced by tetraploid
CMS
-S plants. Accordingly, the symbol for this allele has been changed to restorer-of-fertility lethal 1 (rfl1). In haploid rfl1 pollen, orf355-orf77 transcripts and mitochondrial transcripts encoding the alpha-subunit of the
ATP synthase
(ATPA) were decreased in abundance. Haploid rfl1 pollen failed to accumulate wild-type levels of ATPA protein, indicating that functional requirements for mitochondrial protein accumulation are relaxed in maize pollen. The
CMS
-S system and rfl mutations therefore allow for the selection of nuclear mutations disrupting mitochondrial biogenesis in a multicellular eukaryote.
...
PMID:A nuclear restorer-of-fertility mutation disrupts accumulation of mitochondrial ATP synthase subunit alpha in developing pollen of S male-sterile maize. 1457 87
Mitochondria execute key pathways of central metabolism and serve as cellular sensing and signaling entities, functions that depend upon interactions between mitochondrial and nuclear genetic systems. This is exemplified in cytoplasmic male sterility type S (CMS-S) of
Zea mays
, where novel mitochondrial open reading frames are associated with a pollen collapse phenotype, but nuclear
restorer-of-fertility
(restorer) mutations rescue pollen function. To better understand these genetic interactions, we screened
Activator-Dissociation
(
Ac-Ds
),
Enhancer/Suppressor-mutator
(
En/Spm
), and
Mutator
(
Mu
) transposon-active
CMS
-S stocks to recover new restorer mutants. The frequency of restorer mutations increased in transposon-active stocks compared to transposon-inactive stocks, but most mutants recovered from
Ac-Ds
and
En/Spm
stocks were unstable, reverting upon backcrossing to
CMS
-S inbred lines. However, 10 independent restorer mutations recovered from
CMS
-S
Mu
transposon stocks were stable upon backcrossing. Many restorer mutations condition seed-lethal phenotypes that provide a convenient test for allelism. Eight such mutants recovered in this study included one pair of allelic mutations that were also allelic to the previously described
rfl2-1
mutant. Targeted analysis of mitochondrial proteins by immunoblot identified two features that consistently distinguished restored
CMS
-S pollen from comparably staged, normal-cytoplasm, nonmutant pollen: increased abundance of nuclear-encoded alternative oxidase relative to mitochondria-encoded cytochrome oxidase and decreased abundance of mitochondria-encoded
ATP synthase
subunit 1 compared to nuclear-encoded
ATP synthase
subunit 2.
CMS
-S restorer mutants thus revealed a metabolic plasticity in maize pollen, and further study of these mutants will provide new insights into mitochondrial functions that are critical to pollen and seed development.
...
PMID:
Restorer-of-Fertility
Mutations Recovered in Transposon-Active Lines of S Male-Sterile Maize. 2916 73
