3.2.1.7: inulinase
This is an abbreviated version!
For detailed information about inulinase, go to the full flat file.
Word Map on EC 3.2.1.7
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3.2.1.7
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fructose
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kluyveromyces
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aspergillus
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marxianus
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niger
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jerusalem
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artichoke
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invertase
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syrup
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fructans
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fructooligosaccharides
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nutrition
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food industry
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chicory
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ficuum
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saccharification
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beta-fructofuranosidase
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guilliermondii
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plackett-burman
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synthesis
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levanase
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high-fructose
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agave
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industry
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beta-fructosidase
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tuberosus
- 3.2.1.7
- fructose
- kluyveromyces
- aspergillus
- marxianus
- niger
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jerusalem
- artichoke
- invertase
- syrup
- fructans
- fructooligosaccharides
- nutrition
- food industry
- chicory
- ficuum
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saccharification
- beta-fructofuranosidase
- guilliermondii
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plackett-burman
- synthesis
- levanase
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high-fructose
- agave
- industry
- beta-fructosidase
- tuberosus
Reaction
Synonyms
2,1-beta-D-fructanfructanohydrolase, AARAC_000847, An11g03200, AUD_0597, beta-2,1-D-fructan fructanohydrolase, beta-D-fructan fructanohydrolase, Endo I, Endo-I, Endo-II, endo-inulinase, endoinulinase, EnIA, extracellular endo-inulinase, fructofuranosyl hydrolase, Fructozyme L, Insulinase, inu1, Inu2, InuA, inuB, inuC, inuE, inulase, inulinase, P-III, PENSUB_1400, PENSUB_5768, PENSUB_5772, TCE0_044r16122, TSTA_051680, Xcp KM 24
ECTree
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General Information
General Information on EC 3.2.1.7 - inulinase
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evolution
physiological function
additional information
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the enzyme belongs to the glycoside hydrolase family 32, GH32
evolution
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the enzyme belongs to the glycoside hydrolase family 32, GH32
evolution
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the enzyme belongs to the glycoside hydrolase family 32, GH32
evolution
the enzyme belongs to the glycoside hydrolase family 32, GH32
evolution
-
the enzyme belongs to the glycoside hydrolase family 32, GH32
evolution
the enzyme belongs to the glycoside hydrolase family 32, GH32
evolution
the enzyme belongs to the glycoside hydrolase family 32, GH32
evolution
the enzyme belongs to the glycoside hydrolase family 32, GH32
evolution
the enzyme belongs to the glycoside hydrolase family 32, GH32
evolution
the enzyme belongs to the glycoside hydrolase family 32, GH32
evolution
the enzyme belongs to the glycoside hydrolase family 32, GH32
evolution
A0A0K8L0R3
the enzyme belongs to the glycoside hydrolase family 32, GH32
evolution
the enzyme belongs to the glycoside hydrolase family 32, GH32
evolution
-
the enzyme belongs to the glycoside hydrolase family 32, GH32
evolution
-
the enzyme belongs to the glycoside hydrolase family 32, GH32
evolution
-
the enzyme belongs to the glycoside hydrolase family 32, GH32
evolution
-
the enzyme belongs to the glycoside hydrolase family 32, GH32
evolution
-
the enzyme belongs to the glycoside hydrolase family 32, GH32
-
evolution
Aspergillus niger FGSC A1513
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the enzyme belongs to the glycoside hydrolase family 32, GH32
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evolution
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the enzyme belongs to the glycoside hydrolase family 32, GH32
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evolution
-
the enzyme belongs to the glycoside hydrolase family 32, GH32
-
evolution
-
the enzyme belongs to the glycoside hydrolase family 32, GH32
-
evolution
-
the enzyme belongs to the glycoside hydrolase family 32, GH32
-
evolution
-
the enzyme belongs to the glycoside hydrolase family 32, GH32
-
evolution
Talaromyces pinophilus TN-88
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the enzyme belongs to the glycoside hydrolase family 32, GH32
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Inulinases are a group of enzymes that catalyze the hydrolysis of the (2-1)-beta-D-fructosidic linkages in inulin. Inulinases can be further classified into the following two types of enzymes: exo-inulinases (EC 3.2.1.80) and endo-inulinases (EC 3.2.1.7). Endo-inulinases hydrolyze the internal linkages in inulin, yielding an oligofructose mixture with inulotriose, inulotetraose, and inulopentaose as the main components
physiological function
inulinases are fructofuranosyl hydrolases that target the beta-2,1 linkage of inulin and hydrolyze it into fructose, glucose and inulooligosaccharides (IOS), IOS are functioning as dietary fibers
physiological function
Fusarium oxysporum ACCC31352
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Inulinases are a group of enzymes that catalyze the hydrolysis of the (2-1)-beta-D-fructosidic linkages in inulin. Inulinases can be further classified into the following two types of enzymes: exo-inulinases (EC 3.2.1.80) and endo-inulinases (EC 3.2.1.7). Endo-inulinases hydrolyze the internal linkages in inulin, yielding an oligofructose mixture with inulotriose, inulotetraose, and inulopentaose as the main components
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physiological function
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inulinases are fructofuranosyl hydrolases that target the beta-2,1 linkage of inulin and hydrolyze it into fructose, glucose and inulooligosaccharides (IOS), IOS are functioning as dietary fibers
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enzyme structure homology modeling using the structure of endoinulinase from Aspergillus ficcum (PDB ID 3RWK) as template
additional information
-
enzyme structure homology modeling using the structure of endoinulinase from Aspergillus ficcum (PDB ID 3RWK) as template
additional information
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling
additional information
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling
additional information
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling
additional information
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling
additional information
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling
additional information
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling
additional information
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling
additional information
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling
additional information
-
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling. Docking with kestopentaose substrate
additional information
-
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling. Docking with kestopentaose substrate
additional information
-
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling. Docking with kestopentaose substrate
additional information
-
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling. Docking with kestopentaose substrate
additional information
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling. Docking with kestopentaose substrate
additional information
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling. Docking with kestopentaose substrate
additional information
-
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling. Docking with kestopentaose substrate
additional information
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling. Docking with kestopentaose substrate
additional information
-
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling. Docking with kestopentaose substrate
additional information
-
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling. Docking with kestopentaose substrate
additional information
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling. Docking with kestopentaose substrate
additional information
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling. Docking with kestopentaose substrate
additional information
-
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling. Docking with kestopentaose substrate
additional information
-
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling. Docking with kestopentaose substrate
additional information
-
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling. Docking with kestopentaose substrate
additional information
-
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling. Docking with kestopentaose substrate
additional information
-
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling. Docking with kestopentaose substrate
additional information
A0A0K8L0R3
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling. Docking with kestopentaose substrate. Catalytic residue is Glu34
additional information
reaction selectivity of transfructosylation vs. hydrolysis of endo-inulinase from Aspergillus niger in selected biphasic media, overview
additional information
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screening of diverse fungal strains for exo- and endoinulinase and sucrase activities on different substrate sources, overview. Aspergillus funigatus strain GNCC 1351 has endo- and exoinulinase activities
additional information
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screening of diverse fungal strains for exo- and endoinulinase and sucrase activities on different substrate sources, overview. Aspergillus niger strain ATCC 26011 has endo- and exoinulinase activities
additional information
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screening of diverse fungal strains for exo- and endoinulinase and sucrase activities on different substrate sources, overview. Penicillium citrinum strain MTCC 1256 has endo- and exoinulinase activities
additional information
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screening of diverse fungal strains for exo- and endoinulinase and sucrase activities on different substrate sources, overview. Penicillium rugulosum strain MTCC 3487 has endo- and exoinulinase activities
additional information
Penicillium sp. NFCCI 2768
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screening of diverse fungal strains for exo- and endoinulinase and sucrase activities on different substrate sources, overview. Penicillium sp. strain NFCCI 2768 has endo- and exoinulinase activities
additional information
Penicillium citrinum MTCC 1256
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screening of diverse fungal strains for exo- and endoinulinase and sucrase activities on different substrate sources, overview. Penicillium citrinum strain MTCC 1256 has endo- and exoinulinase activities
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additional information
Aspergillus niger ATCC 26011
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screening of diverse fungal strains for exo- and endoinulinase and sucrase activities on different substrate sources, overview. Aspergillus niger strain ATCC 26011 has endo- and exoinulinase activities
-
additional information
-
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling. Docking with kestopentaose substrate
-
additional information
Aspergillus niger FGSC A1513
-
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling
-
additional information
-
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling. Docking with kestopentaose substrate
-
additional information
Talaromyces rugulosus MTCC 3487
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screening of diverse fungal strains for exo- and endoinulinase and sucrase activities on different substrate sources, overview. Penicillium rugulosum strain MTCC 3487 has endo- and exoinulinase activities
-
additional information
-
enzyme structure homology modeling using the structure of endoinulinase from Aspergillus ficcum (PDB ID 3RWK) as template
-
additional information
-
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling. Docking with kestopentaose substrate
-
additional information
-
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling. Docking with kestopentaose substrate
-
additional information
-
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling
-
additional information
Aspergillus fumigatus GNCC 1351
-
screening of diverse fungal strains for exo- and endoinulinase and sucrase activities on different substrate sources, overview. Aspergillus funigatus strain GNCC 1351 has endo- and exoinulinase activities
-
additional information
-
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling
-
additional information
Talaromyces pinophilus TN-88
-
in silico evaluation and identification of fungi capable of producing endo-inulinase enzyme, overview. The enzyme endo-inulinase hydrolyzes inulin to short chain fructooligosaccharides (FOS). Molecular docking, and molecular dynamic simulation analyses, structure homology modeling
-