1.1.1.14: L-iditol 2-dehydrogenase
This is an abbreviated version!
For detailed information about L-iditol 2-dehydrogenase, go to the full flat file.
Word Map on EC 1.1.1.14
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1.1.1.14
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polyols
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aminotransferase
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aldose
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hepatotoxicity
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fructose
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necrosis
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transaminase
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dehydrogenases
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bile
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lens
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alt
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sheep
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bilirubin
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gamma-glutamyl
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testicular
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cataract
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transpeptidase
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gluconobacter
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ccl4
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acetaminophen
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tetrachloride
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centrilobular
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xylitol
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oxydans
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hepatoprotective
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galactitol
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apap
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ribitol
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acetaminophen-induced
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diapause
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pneumotoxicity
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bromobenzene
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13-week
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n-demethylase
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d-mannitol
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forestomach
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hepatotoxicants
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fructokinase
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l-sorbose
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aminopyrine
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glutamic-pyruvic
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sorbinil
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medicine
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agriculture
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synthesis
- 1.1.1.14
- polyols
- aminotransferase
- aldose
-
hepatotoxicity
- fructose
- necrosis
- transaminase
- dehydrogenases
- bile
- lens
-
alt
- sheep
- bilirubin
-
gamma-glutamyl
- testicular
- cataract
- transpeptidase
- gluconobacter
- ccl4
- acetaminophen
-
tetrachloride
-
centrilobular
- xylitol
- oxydans
-
hepatoprotective
- galactitol
- apap
- ribitol
-
acetaminophen-induced
-
diapause
-
pneumotoxicity
- bromobenzene
-
13-week
- n-demethylase
- d-mannitol
-
forestomach
-
hepatotoxicants
- fructokinase
- l-sorbose
- aminopyrine
-
glutamic-pyruvic
- sorbinil
- medicine
- agriculture
- synthesis
Reaction
Synonyms
ADH, D-sorbitol dehydrogenase, dehydrogenase, L-iditol, Dgeo_2865, glucitol dehydrogenase, GoSCR, L-iditol 2-dehydrogenase, L-iditol dehydrogenase (sorbitol), L-iditol:NAD oxidoreductase, L-iditol:NAD+ 5-oxidoreductase, LeSDH, MdSDH5, More, NAD+-dependent sorbitol dehydrogenase, NAD-dependent polyol dehydrogenase, NAD-dependent sorbitol dehydrogenase, NAD-SDH, NAD-sorbitol dehydrogenase, PDH-11300, polyol dehydrogenase, Protein tms1, SDH, SldA, SLDH, SOR, Sor1, Sor2, sorbitol dehydrogenase, sorbitol dehydrogenase 1, sorbitol dehydrogenase 2, sorbitol related enzyme, SORD
ECTree
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Source Tissue
Source Tissue on EC 1.1.1.14 - L-iditol 2-dehydrogenase
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isoform Sdh1, specific for kernel and endosperm. Maximaml expression at both mRNA and enzyme activity level during early kernel development
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enzyme activity is higher in seed than in cortex per mg and fresh weight. Isoforms SDH1 and SDH3 are expressed in both seed and cortex tissue, isoform SDH2 expression is limited to cortex
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activity is higher than in cortex per mg and fresh weight, and contributes significantly to whole fruit activity during weeks 2-5 after bloom. Isoforms SDH1 and SDH3 are expressed in both seed and cortex tissue. Isoforms SDH6 and SDH9 are expressed in seed tissues only
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SORD is present along the entire length of sperm flagellum, but does not show the same distribution pattern as alpha-tubulin. Sord mRNA and SORD protein expression is up-regulated during late spermiogenesis
additional information
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electrophoretic karyotyping and array-based comparative genomic hybridization (array-CGH), comparison of four different species derived from the Saccharomyces sensu stricto complex of 22 distillery strains, overview. The genomic diversity is mainly revealed within subtelomeric regions and the losses and/or gains of fragments of chromosomes I, III, VI and IX are the most frequently observed. Statistically significant differences in the gene copy number are documented in six functional gene categories: 1. telomere maintenance via recombination, DNA helicase activity or DNA binding, 2. maltose metabolism process, glucose transmembrane transporter activity, 3. asparagine catabolism, cellular response to nitrogen starvation, localized in cell wall-bounded periplasmic space, 4. siderophore transport, 5. response to copper ion, cadmium ion binding and 6. L-iditol 2-dehydrogenase activity. Distillery yeasts are diploid. Gene ontology overrepresentation profiles are species-specific
electrophoretic karyotyping and array-based comparative genomic hybridization (array-CGH), comparison of four different species derived from the Saccharomyces sensu stricto complex of 22 distillery strains, overview. The genomic diversity is mainly revealed within subtelomeric regions and the losses and/or gains of fragments of chromosomes I, III, VI and IX are the most frequently observed. Statistically significant differences in the gene copy number are documented in six functional gene categories: 1. telomere maintenance via recombination, DNA helicase activity or DNA binding, 2. maltose metabolism process, glucose transmembrane transporter activity, 3. asparagine catabolism, cellular response to nitrogen starvation, localized in cell wall-bounded periplasmic space, 4. siderophore transport, 5. response to copper ion, cadmium ion binding and 6. L-iditol 2-dehydrogenase activity. Distillery yeasts are diploid. Gene ontology overrepresentation profiles are species-specific
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electrophoretic karyotyping and array-based comparative genomic hybridization (array-CGH), comparison of four different species derived from the Saccharomyces sensu stricto complex of 22 distillery strains, overview. The genomic diversity is mainly revealed within subtelomeric regions and the losses and/or gains of fragments of chromosomes I, III, VI and IX are the most frequently observed. Statistically significant differences in the gene copy number are documented in six functional gene categories: 1. telomere maintenance via recombination, DNA helicase activity or DNA binding, 2. maltose metabolism process, glucose transmembrane transporter activity, 3. asparagine catabolism, cellular response to nitrogen starvation, localized in cell wall-bounded periplasmic space, 4. siderophore transport, 5. response to copper ion, cadmium ion binding and 6. L-iditol 2-dehydrogenase activity. Distillery yeasts are diploid. Gene ontology overrepresentation profiles are species-specific
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electrophoretic karyotyping and array-based comparative genomic hybridization (array-CGH), comparison of four different species derived from the Saccharomyces sensu stricto complex of 22 distillery strains, overview. The genomic diversity is mainly revealed within subtelomeric regions and the losses and/or gains of fragments of chromosomes I, III, VI and IX are the most frequently observed. Statistically significant differences in the gene copy number are documented in six functional gene categories: 1. telomere maintenance via recombination, DNA helicase activity or DNA binding, 2. maltose metabolism process, glucose transmembrane transporter activity, 3. asparagine catabolism, cellular response to nitrogen starvation, localized in cell wall-bounded periplasmic space, 4. siderophore transport, 5. response to copper ion, cadmium ion binding and 6. L-iditol 2-dehydrogenase activity. Distillery yeasts are diploid. Gene ontology overrepresentation profiles are species-specific
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expression is higher at the young and mature stage than at other stages
vascular tissue and mesophyll tissue of young and old leaves
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additional information
enzyme expression and activity during apple fruit set and early development, mRNA and activity is present during the first 5 wees after bloom, important for carbohydrate metabolism, overview
additional information
enzyme expression and activity during apple fruit set and early development, mRNA and activity is present during the first 5 wees after bloom, important for carbohydrate metabolism, overview
additional information
enzyme expression and activity during apple fruit set and early development, mRNA and activity is present during the first 5 wees after bloom, important for carbohydrate metabolism, overview
additional information
enzyme expression and activity during apple fruit set and early development, mRNA and activityis present during the first 5 wees after bloom, important for carbohydrate metabolism, overview
additional information
enzyme expression and activity during apple fruit set and early development, mRNA and activityis present during the first 5 wees after bloom, important for carbohydrate metabolism, overview
additional information
enzyme expression and activity during apple fruit set and early development, mRNA and activityis present during the first 5 wees after bloom, important for carbohydrate metabolism, overview
additional information
the enzyme is ubiquitously expressed in both sink and source organs
additional information
the enzyme is ubiquitously expressed in both sink and source organs
additional information
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the enzyme is ubiquitously expressed in both sink and source organs
additional information
the enzyme is ubiquitously expressed in both sink and source organs, immunohistochemic analysis, overview
additional information
the enzyme is ubiquitously expressed in both sink and source organs, immunohistochemic analysis, overview
additional information
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the enzyme is ubiquitously expressed in both sink and source organs, immunohistochemic analysis, overview
additional information
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sorbitol can substitute for glucose or fructose in capacitating media
additional information
molecular karyotyping reveals the diversity of chromosome patterns, four strains with the most accented genetic variabilities are selected and subjected to genome-wide array-based comparativ genomic hybridization (array-CGH) analysis. The differences in the gene copy number are found in five functional gene categories: (1) maltose metabolism and transport, (2) response to toxin, (3) siderophore transport, (4) cellular aldehyde metabolic process, and (5) L-iditol 2-dehydrogenase activity
additional information
molecular karyotyping reveals the diversity of chromosome patterns, four strains with the most accented genetic variabilities are selected and subjected to genome-wide array-based comparativ genomic hybridization (array-CGH) analysis. The differences in the gene copy number are found in five functional gene categories: (1) maltose metabolism and transport, (2) response to toxin, (3) siderophore transport, (4) cellular aldehyde metabolic process, and (5) L-iditol 2-dehydrogenase activity
additional information
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molecular karyotyping reveals the diversity of chromosome patterns, four strains with the most accented genetic variabilities are selected and subjected to genome-wide array-based comparativ genomic hybridization (array-CGH) analysis. The differences in the gene copy number are found in five functional gene categories: (1) maltose metabolism and transport, (2) response to toxin, (3) siderophore transport, (4) cellular aldehyde metabolic process, and (5) L-iditol 2-dehydrogenase activity