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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This paper presents the first report on the structure of a 14-kb centromere sequence in a cereal genome that includes 1.9-kb direct repeats. The cereal centromeric sequence (CCS1) conserved in some Gramineae species contains a 17-bp motif similar to the CENP-B box, which serves as the binding site for the centromere-specific protein CENP-B in human. To isolate centromeric units from rice (Oryza sativa L.), we performed PCR using the CENP-B box-like sequences (CBLS) as primers. A 264-bp clone was amplified by this method, and called RCS1516. It appeared to be a novel member of the CCS1 family, sharing about 60% identity with the CCS1 sequences of other cereals. Then, a 14-kb genomic clone, lambda RCB11, carrying the RCS1516 sequence was isolated and sequenced. It was found to contain three copies of a 1.9-kb direct repeat, RCE1, separated by 5.1- and 1.7-kb. A 300-bp sequence at the 3' end of RCE1 is highly conserved in all three copies (>90%) and is almost identical to the RCS1516 sequence including the CBLS motif. The copy number of RCE1 was estimated to range from 10(2) to 10(3) in the haploid genome of rice. Cloned RCE1 units were used for fluorescent in situ hybridization (FISH) analysis, and signals were observed on almost every primary constriction of rice chromosomes. Thus it was concluded that RCE1 is a significant component of the rice centromere. The lambda RCB11 clone contained at least four A/T-rich regions, which are candidate for matrix attachment regions (MARs), in the sequences between the RCE1 repeats. Other elements that are homologous to the short centromeric repetitive sequences pSau3A9 and pRG5, detected in both sorghum and rice, were also found in the clone.
Mol Gen Genet 1999 Feb
PMID:Organization of the 1.9-kb repeat unit RCE1 in the centromeric region of rice chromosomes. 1007 Dec 4

The assembly of chloroplast metalloproteins requires biochemical catalysis. Assembly factors involved in the biosynthesis of metalloproteins might be required to synthesize, chaperone, or transport the cofactor; modify or chaperone the apoprotein; or catalyze cofactor-protein association. Genetic and biochemical approaches have been applied to the study of the assembly of chloroplast iron-sulfur centers, cytochromes, plastocyanin, and the manganese center of photosystem II. These have led to the discovery of NifS-homologues and cysteine desulfhydrase for iron-sulfur center assembly, six loci (CCS1-CCS5, ccsA) for c-type cytochrome assembly, four loci for cytochrome b6 assembly (CCB1-CCB4), the CtpA protease, which is involved in pre-D1 processing, and the PCY2 locus, which is involved in holoplastocyanin accumulation. New assembly factors are likely to be discovered via the study of assembly-defective mutants of Arabidopsis, cyanobacteria, Chlamydomonas, maize, and via the functional analysis of candidate cofactor metabolizing components identified in the genome databases.
Annu Rev Plant Physiol Plant Mol Biol 1998 Jun
PMID:POSTTRANSLATIONAL ASSEMBLY OF PHOTOSYNTHETIC METALLOPROTEINS. 1501 26

The caffeine biosynthetic pathway in coffee plants has been proposed to involve three distinct N -methyltransferases, xanthosine methyltransferase (XMT), 7- N -methylxanthine methyltransferase (MXMT; theobromine synthase), and 3,7-dimethylxanthine methyltransferase (DXMT; caffeine synthase). We previously isolated all corresponding cDNAs designated as CaXMT1 , CaMXMT1 , CaMXMT2 and CaDXMT1 , respectively, and showed that caffeine was indeed synthesized in vitro by the combination of their gene products. In order to regulate caffeine biosynthesis in planta , we suppressed expression of CaMXMT1 by the double stranded RNA interference (RNAi) method. For this purpose, we first established a protocol for efficient somatic embryogenesis of Coffea arabica and C. canephora , and then Agrobacterium -mediated transformation techniques. The RNAi transgenic lines of embryogenic tissues derived from C. arabica and transgenic plantlets of C. canephora demonstrated a clear reduction in transcripts for CaMXMT1 in comparison with the control plants. Transcripts for CaXMT1 and CaDXMT1 were also reduced in the most cases. Both embryonic tissues and plantlets exhibited a concomitant reduction of theobromine and caffeine contents to a range between 30% and 50% of that of the control. These results suggest that the CaMXMT1 -RNAi sequence affected expression of not only CaMXMT1 itself, but also CaXMT1 and CaDXMT1 , and that, since the reduction in theobromine content was proportional to that for caffeine, it is involved in the major synthetic pathway in coffee plants. The results also indicate that the method can be practically applied to produce decaffeinated coffee plants.
Plant Mol Biol 2004 Apr
PMID:Application of RNAi to confirm theobromine as the major intermediate for caffeine biosynthesis in coffee plants with potential for construction of decaffeinated varieties. 1560 60

Caffeine (1,3,7-trimethylxanthine) is derived from xanthosine through three successive transfers of methyl groups and a single ribose removal in coffee plants. The methyl group transfer is catalyzed by N-zmethyltransferases, xanthosine methyltransferase (XMT), 7-methylxanthine methyltransferase (MXMT) and 3,7-dimethylxanthine methyltransferase (DXMT). We previously cloned three genes encoding each of these N-methyltransferases from coffee plants, and reconstituted the final sequence of the caffeine synthetic pathway in vitro. In the present study, we simultaneously expressed these coffee genes in tobacco plants (Nicotiana tabacum), using a multiple-gene transfer method, and confirmed successful caffeine production up to 5 microg g(-1) fresh weight in leaves of the resulting transgenic plants. Their effects on feeding behavior of tobacco cutworms (Spodoptera litura), which damage a wide range of crops, were then examined. Leaf disc choice test showed that caterpillars selectively fed on the wild-type control materials, or positively avoided the transgenic materials. The results suggest a novel approach to confer self-defense by producing caffeine in planta. A second generation of transgenic crops containing caffeine may save labor and agricultural costs and also mitigate the environmental load of pesticides in future.
Plant Mol Biol 2005 Sep
PMID:Caffeine production in tobacco plants by simultaneous expression of three coffee N-methyltrasferases and its potential as a pest repellant. 1624 53

Caffeine (1,3,7-trimethylxanthine) and theobromine (3,7-dimethylxanthine) are the major purine alkaloids in plants. To investigate the diversity of N-methyltransferases involved in purine alkaloid biosynthesis, we isolated the genes homologous for caffeine synthase from theobromine-accumulating plants. The predicted amino acid sequences of N-methyltransferases in theobromine-accumulating species in Camellia were more than 80% identical to caffeine synthase in C. sinensis. However, there was a little homology among the N-methyltransferases between Camellia and Theobroma. The recombinant enzymes derived from theobromine-accumulating plants had only 3-N-methyltransferase activity. The accumulation of purine alkaloids was, therefore, dependent on the substrate specificity of N-methyltransferase determined by one amino acid residue in the central part of the protein.
Mol Genet Genomics 2006 Feb
PMID:Substrate specificity of N-methyltransferase involved in purine alkaloids synthesis is dependent upon one amino acid residue of the enzyme. 1633 68

Genome-wide screening for sensitivity to chronic endoplasmic reticulum (ER) stress induced by dithiothreitol and tunicamycin (TM) identified mutants deleted for Cu, Zn superoxide dismutase (SOD) function (SOD1, CCS1) or affected in NADPH generation via the pentose phosphate pathway (TKL1, RPE1). TM-induced ER stress led to an increase in cellular superoxide accumulation and an increase in SOD1 expression and Sod1p activity. Prior adaptation of the hac1 mutant deficient in the unfolded protein response (UPR) to the superoxide-generating agent paraquat reduced cell death under ER stress. Overexpression of the ER oxidoreductase Ero1p known to generate hydrogen peroxide in vitro, did not lead to increased superoxide levels in cells subjected to ER stress. The mutants lacking SOD1, TKL1, or RPE1 exhibited decreased UPR induction under ER stress. Sensitivity of the sod1 mutant to ER stress and decreased UPR induction was partially rescued by overexpression of TKL1 encoding transketolase. These data indicate an important role for SOD and cellular NADP(H) in cell survival during ER stress, and it is proposed that accumulation of superoxide affects NADP(H) homeostasis, leading to reduced UPR induction during ER stress.
Mol Biol Cell 2009 Mar
PMID:Cu, Zn superoxide dismutase and NADP(H) homeostasis are required for tolerance of endoplasmic reticulum stress in Saccharomyces cerevisiae. 1912 74

To study caffeine biosynthesis and degradation, here we monitored caffeine synthase gene expression and caffeine and allantoin content in various tissues of four Camellia sinensis (L.) O. Kuntze cultivars during non-dormant (ND) and dormant (D) growth phases. Caffeine synthase expression as well as caffeine content was found to be higher in commercially utilized tissues like apical bud, 1st leaf, 2nd leaf, young stem, and was lower in old leaf during ND compared to D growth phase. Among fruit parts, fruit coats have higher caffeine synthase expression, caffeine content, and allantoin content. On contrary, allantoin content was found lower in the commercially utilized tissues and higher in old leaf. Results suggested that caffeine synthesis and degradation in tea appears to be under developmental and seasonal regulation.
Mol Biotechnol 2009 Oct
PMID:Caffeine biosynthesis and degradation in tea [Camellia sinensis (L.) O. Kuntze] is under developmental and seasonal regulation. 1947 88

Tea [Camellia sinensis (L.) O. Kuntze] is a perennial and most popular non-alcoholic caffeine-containing beverage crop. Tea has several constraints for its genetic improvement such as its high polyphenolic content and woody perennial nature. The development of transgenic tea is very difficult, laborious, and time taking process. In tea, regeneration requires minimum 8-12 months. In view of this, attempt has been made in this article to develop a rapid, efficient, and quite economical Agrobacterium-mediated root transformation system for tea. The feasibility of the developed protocol has been documented through silencing caffeine biosynthesis. For this, one-month-old tea seedlings were exposed to fresh wounding at the elongation zone of roots and were inoculated with Agrobacterium tumefaciens cultures carrying a RNAi construct (pFGC1008-CS). The pFGC1008-CS contained 376 bp of caffeine synthase (CS) cDNA fragment in sense and antisense direction with an intron in between. This has made the RNAi construct to produce a hairpin RNA (ihpRNA). The suppressed expression of CS gene and a marked reduction in caffeine and theobromine contents in young shoots of tea seedlings were obtained after root transformation through Agrobacterium infiltration. Such transformation system could be useful for functional analysis of genes in tea like woody and perennial plants.
Mol Biotechnol 2011 Jul
PMID:Agrobacterium-mediated silencing of caffeine synthesis through root transformation in Camellia sinensis L. 2118 7

In this study, attempt has been made to produce a selected cultivar of tea with low-caffeine content using RNAi technology. The caffeine biosynthetic pathway in tea has been proposed to involve three N-methyltransferases such as xanthosine methyltransferase, 7-N-methylxanthine methyltransferase and 3, 7-dimethylxanthine methyltransferase. Last two steps of caffeine biosynthesis in tea have been known to be catalyzed by a bifunctional enzyme known as caffeine synthase. To suppress the caffeine synthesis in the selected tea [Camellia sinensis (L.) O. Kuntze] cv. Kangra jat, we isolated a partial fragment of caffeine synthase (CS) from the same cultivar and used to design RNAi construct (pFGC1008-CS). Somatic embryos were transformed with the developed construct using biolistic method. Transformed somatic embryos showed reduction in the levels of CS transcript expression as well as in caffeine content. Plants were regenerated from the transformed somatic embryos. Transgenic plants showed a significant suppression of CS transcript expression and also showed a reduction of 44-61% in caffeine and 46-67% in theobromine contents as compared to the controls. These results suggest that the RNAi construct developed here using a single partial fragment of CS gene reduced the expression of the targeted endogenous gene significantly. However, the reduction in theobromine content in addition to caffeine documented the involvement of this single CS in the catalysis of last two methyl transfer steps in caffeine biosynthesis of tea.
Plant Mol Biol 2011 Aug
PMID:Producing low-caffeine tea through post-transcriptional silencing of caffeine synthase mRNA. 2156 10

In this work, we studied the biosynthesis of caffeine by examining the expression of genes involved in this biosynthetic pathway in coffee fruits containing normal or low levels of this substance. The amplification of gene-specific transcripts during fruit development revealed that low-caffeine fruits had a lower expression of the theobromine synthase and caffeine synthase genes and also contained an extra transcript of the caffeine synthase gene. This extra transcript contained only part of exon 1 and all of exon 3. The sequence of the mutant caffeine synthase gene revealed the substitution of isoleucine for valine in the enzyme active site that probably interfered with enzymatic activity. These findings indicate that the absence of caffeine in these mutants probably resulted from a combination of transcriptional regulation and the presence of mutations in the caffeine synthase amino acid sequence.
Genet Mol Biol 2009 Oct
PMID:Altered expression of the caffeine synthase gene in a naturally caffeine-free mutant of Coffea arabica. 2163 58


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