Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.2.1.15 (pectinase)
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Site-selected insertion (SSI) is a PCR-based technique which uses primers located within the transposon and a target gene for detection of transposon insertions into cloned genes. We screened tomato plants bearing single or multiple copies of maize Ac or Ds transposable elements for somatic insertions at one close-range target and two long-range targets. Eight close-range Ds insertions near the right border of the T-DNA were recovered. Sequence analysis showed a precise junction between the transposon and the target for all insertions. Two insertions in separate plants occurred at the same site, but others appeared dispersed in the region of the right T-DNA border with no target specificity. However, insertions showed a preference for one orientation of the transposon. Use of plants with multiple Ac (HiAc) or Ds (HiDs) elements allowed detection of somatic insertions at two single-copy genes, PG (polygalacturonase) and DFR (dihydroflavonol 4-reductase). Certain HiDs plants showed much higher rates of insertion into PG than others. Insertions in PG and DFR were found throughout the gene regions monitored and, with the exception of one insertion in PG, the junctions between transposon and target were exact. SSI analysis of progeny from the HiDs parents revealed that in some cases the tendency to incur high levels of somatic insertions in PG was inherited. Inheritance of this character is an indication that SSI could be used to direct a search for germinal PG insertions in tomato.
Mol Gen Genet 1996 Aug 27
PMID:Site-selected insertional mutagenesis of tomato with maize Ac and Ds elements. 880 92

Recently, three polygalacturonase (PG) cDNAs (TAPG1, TAPG2, and TAPG4) were identified in a library prepared from tomato (Lycopersicon esculentum cv. Rutgers) leaf abscission zones. Genomic clones encoding these three cDNAs have been identified. Moreover, the genomic clones include three additional PG genes, TPG3, TAPG5 and TPG6, which have not been previously reported. A transcript for TAPG5 was detected in the RNA from leaf and flower abscission zones; however, transcripts for TPG3 and TPG6 were not. DNA sequence analysis revealed that TAPG1, TAPG2, and TPG3 are linked in a close tandem array. TAPG4, TAPG5 and TPG6 are also closely linked to each other but in divergent and inverted orientations and are not closely linked to TAPG1, TAPG2, or TPG3. TAPG4, TAPG5 and TPG6 map to the middle of chromosome 12. TPG6 contains two introns. The other five PG genes include four exons and three introns. The relative positions of introns 1 and 2 are shared by all six PG genes. The position of intron 3 is conserved in the other five. The structure of the tomato fruit PG gene, which contains 8 introns, is compared with that of the six PG genes described above. Of interest is an approximately 300 bp inverted repeat found in TAPG1, TAPG2 and TAPG4 that shares significant sequence identity with sequence in the first intron of the tomato anionic peroxidase gene, tap1. RNA blot analysis indicates that the transcript for an anionic peroxidase increases during abscission. In addition, a 250 bp sequence found in TPG3 shares high sequence identity with a 5' upstream region in a wound-induced win2 gene from potato. Potential sites of transcriptional regulation in these genes are discussed.
Mol Gen Genet 1998 Jun
PMID:Genomic organization of six tomato polygalacturonases and 5' upstream sequence identity with tap1 and win2 genes. 966 29

By systematic sequencing of a flower bud cDNA library from Arabidopsis thaliana, we have identified four cDNAs encoding polygalacturonase. The corresponding genes, together with seven other A. thaliana genes present in the databases, form a small gene family. Sequence comparisons of the deduced polypeptides within the gene family or with other plant polygalacturonases allow classification of the genes into different clades. Five polygalacturonases, including all those isolated from the flower buds, are closely related to the enzyme in pollen. Of the six remaining polygalacturonases, three are more closely related to the abscission-specific type of enzyme and two others to the fruit polygalacturonase. The last one is more distantly related to the others and might correspond to a new type of polygalacturonase. Expression of the different genes was analysed on Northern blots and by a PCR-based strategy. Results indicate that if, as expected, the cDNAs isolated from the flower bud library are strongly expressed in pollen, other genes are expressed at a low level in young developing tissues, such as in seedlings and roots, suggesting that they could be implicated in the cell wall modifications observed during cell elongation and/or expansion which occur in these tissues.
Mol Gen Genet 1999 Jul
PMID:Differential expression of a polygalacturonase gene family in Arabidopsis thaliana. 1048 85

Inositol phosphorylceramide (IPC) synthase is the key enzyme with highly conserved sequences, which is involved in fungal sphingolipid biosynthesis. The antibiotic aureobasidin A (AbA) induces the death of fungi through inhibiting IPC synthase activity. The mutations of AUR1 gene coding IPC synthase in fungi and protozoa causes a resistance to AbA. However, the mechanism of AbA resistance is still elusive. In this paper, we generated two mutants of Botrytis cinerea with AbA-resistance, BcAUR1a and BcAUR1b, through UV irradiation. BcAUR1a lost an intron and BcAUR1b had three amino acid mutations (L197P, F288S and T323A) in the AUR1 gene. AbA strongly inhibits the activity of IPC synthase in wild-type B. cinerea, which leads to distinct changes in cell morphology, including the delay in conidial germination, excessive branching near the tip of the germ tube and mycelium, and the inhibition of the mycelium growth. Further, AbA prevents the infection of wild-type B. cinerea in tomato fruits via reducing oxalic acid secretion and the activity of cellulase and pectinase. On the contrary, AbA has no effect on the growth and pathogenicity of the two mutants. Although both mutants show a similar AbA resistance, the molecular mechanisms might be different between the two mutants.
J Gen Appl Microbiol 2015
PMID:Characteristics of inositol phosphorylceramide synthase and effects of aureobasidin A on growth and pathogenicity of Botrytis cinerea. 2637 30


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