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Information on EC 7.5.2.10 - ABC-type D-xylose transporter
for references in articles please use BRENDA:EC7.5.2.10
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EC Tree 7 Translocases
7.5 Catalysing the translocation of carbohydrates and their derivatives
7.5.2 Linked to the hydrolysis of a nucleoside triphosphate
7.5.2.10 ABC-type D-xylose transporter
IUBMB Comments
ATP-binding cassette (ABC) type transporter, characterized by the presence of two similar ATP-binding domains/proteins and two integral membrane domains/proteins. A bacterial enzyme that interacts with an extracytoplasmic substrate binding protein and mediates the high affinity uptake of D-xylose.
The expected taxonomic range for this enzyme is: Bacteria, Eukaryota, Archaea
- 7.5.2.10
- xylitol
- pentose
-
lignocellulosic
- xylulokinase
-
xylose-utilizing
- boidinii
-
hemicellulosic
-
glucose-xylose
-
co-utilization
- xylosidase
Reaction Schemes
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D-xylose-[xylose-binding protein][side 1]
=
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[xylose-binding protein][side 1]
Synonyms
xylose transporter, xylfgh, abc-type d-xylose transporter, d-xylose abc transporter, more
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SYNONYM 
ORGANISM
UNIPROT
COMMENTARY 
LITERATURE
ABC-type D-xylose transporter
D-xylose ABC transporter
D-xylose transporter
D-xylose transporting ATPase
-
-
-
-
Gal2mut
Hxt4
pentose transporter
TRP22
TRP6
Xltr1p
xylFGH
XylG
xylH
xylose transporter
xylose-specific transporter
D-xylose ABC transporter
-
-
-
-
xylFGH
-
-
-
-
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REACTION
REACTION DIAGRAM
COMMENTARY
ORGANISM
UNIPROT
LITERATURE
ATP + H2O + D-xylose-[xylose-binding protein][side 1] = ADP + phosphate + D-xylose[side 2] + [xylose-binding protein][side 1]
-
-
-
-
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SYSTEMATIC NAME
IUBMB Comments
ATP phosphohydrolase (ABC-type, D-xylose-transporting)
ATP-binding cassette (ABC) type transporter, characterized by the presence of two similar ATP-binding domains/proteins and two integral membrane domains/proteins. A bacterial enzyme that interacts with an extracytoplasmic substrate binding protein and mediates the high affinity uptake of D-xylose.
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SUBSTRATE
PRODUCT
REACTION DIAGRAM
ORGANISM
UNIPROT
LITERATURE
COMMENTARY
Reversibility
r=reversible
ir=irreversible
?=not specified
r=reversible
ir=irreversible
?=not specified
ATP + H2O + D-arabinose-[arabinose-binding protein][side 1]
ADP + phosphate + D-arabinose[side 2] + [arabinose-binding protein][side 1]
ATP + H2O + D-glucose-[glucose-binding protein][side 1]
ADP + phosphate + D-glucose[side 2] + [glucose-binding protein][side 1]
ATP + H2O + D-xylose-[D-xylose-binding protein XylF][side 1]
ADP + phosphate + D-xylose[side 2] + [D-xylose-binding protein XylF][side 1]
ATP + H2O + D-xylose-[xylose-binding protein XylF][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein XylF][side 1]
ATP + H2O + D-xylose-[xylose-binding protein][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein][side 1]
ATP + H2O + L-arabinose-[arabinose-binding protein][side 1]
ADP + phosphate + L-arabinose[side 2] + [arabinose-binding protein][side 1]
ATP + H2O + D-arabinose-[arabinose-binding protein][side 1]
ADP + phosphate + D-arabinose[side 2] + [arabinose-binding protein][side 1]
-
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-arabinose-[arabinose-binding protein][side 1]
ADP + phosphate + D-arabinose[side 2] + [arabinose-binding protein][side 1]
-
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-glucose-[glucose-binding protein][side 1]
ADP + phosphate + D-glucose[side 2] + [glucose-binding protein][side 1]
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-glucose-[glucose-binding protein][side 1]
ADP + phosphate + D-glucose[side 2] + [glucose-binding protein][side 1]
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[D-xylose-binding protein XylF][side 1]
ADP + phosphate + D-xylose[side 2] + [D-xylose-binding protein XylF][side 1]
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[D-xylose-binding protein XylF][side 1]
ADP + phosphate + D-xylose[side 2] + [D-xylose-binding protein XylF][side 1]
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[xylose-binding protein XylF][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein XylF][side 1]
-
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[xylose-binding protein XylF][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein XylF][side 1]
-
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[xylose-binding protein][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein][side 1]
-
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[xylose-binding protein][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein][side 1]
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[xylose-binding protein][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein][side 1]
-
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[xylose-binding protein][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein][side 1]
-
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[xylose-binding protein][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein][side 1]
Pichia kudriavzevii WL2002-5
-
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[xylose-binding protein][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein][side 1]
-
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[xylose-binding protein][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein][side 1]
-
Substrates: maltose transporter MAL11 shows the best performance in xylose transport
Products: -
Products: -
?
ATP + H2O + D-xylose-[xylose-binding protein][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein][side 1]
-
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[xylose-binding protein][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein][side 1]
-
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[xylose-binding protein][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein][side 1]
-
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[xylose-binding protein][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein][side 1]
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[xylose-binding protein][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein][side 1]
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[xylose-binding protein][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein][side 1]
-
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[xylose-binding protein][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein][side 1]
Yarrowia lipolytica ATCC MYA-2613
-
Substrates: -
Products: -
Products: -
?
ATP + H2O + L-arabinose-[arabinose-binding protein][side 1]
ADP + phosphate + L-arabinose[side 2] + [arabinose-binding protein][side 1]
-
Substrates: -
Products: -
Products: -
?
ATP + H2O + L-arabinose-[arabinose-binding protein][side 1]
ADP + phosphate + L-arabinose[side 2] + [arabinose-binding protein][side 1]
-
Substrates: -
Products: -
Products: -
?
additional information
?
-
-
Substrates: XylFII is not a substrate-binding protein for the enzyme
Products: -
Products: -
?
additional information
?
-
-
Substrates: XylFII is not a substrate-binding protein for the enzyme
Products: -
Products: -
?
additional information
?
-
-
Substrates: no activity with dextrin, sucrose and glucose
Products: -
Products: -
?
additional information
?
-
-
Substrates: no activity with dextrin, sucrose and glucose
Products: -
Products: -
?
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NATURAL SUBSTRATE
NATURAL PRODUCT
REACTION DIAGRAM
ORGANISM
UNIPROT
LITERATURE
COMMENTARY
REVERSIBILITY
r=reversible
ir=irreversible
?=not specified
r=reversible
ir=irreversible
?=not specified
ATP + H2O + D-arabinose-[arabinose-binding protein][side 1]
ADP + phosphate + D-arabinose[side 2] + [arabinose-binding protein][side 1]
ATP + H2O + D-xylose-[D-xylose-binding protein XylF][side 1]
ADP + phosphate + D-xylose[side 2] + [D-xylose-binding protein XylF][side 1]
ATP + H2O + D-xylose-[xylose-binding protein XylF][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein XylF][side 1]
ATP + H2O + D-xylose-[xylose-binding protein][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein][side 1]
ATP + H2O + L-arabinose-[arabinose-binding protein][side 1]
ADP + phosphate + L-arabinose[side 2] + [arabinose-binding protein][side 1]
ATP + H2O + D-arabinose-[arabinose-binding protein][side 1]
ADP + phosphate + D-arabinose[side 2] + [arabinose-binding protein][side 1]
-
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-arabinose-[arabinose-binding protein][side 1]
ADP + phosphate + D-arabinose[side 2] + [arabinose-binding protein][side 1]
-
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[D-xylose-binding protein XylF][side 1]
ADP + phosphate + D-xylose[side 2] + [D-xylose-binding protein XylF][side 1]
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[D-xylose-binding protein XylF][side 1]
ADP + phosphate + D-xylose[side 2] + [D-xylose-binding protein XylF][side 1]
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[xylose-binding protein XylF][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein XylF][side 1]
-
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[xylose-binding protein XylF][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein XylF][side 1]
-
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[xylose-binding protein][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein][side 1]
-
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[xylose-binding protein][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein][side 1]
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[xylose-binding protein][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein][side 1]
-
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[xylose-binding protein][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein][side 1]
-
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[xylose-binding protein][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein][side 1]
Pichia kudriavzevii WL2002-5
-
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[xylose-binding protein][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein][side 1]
-
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[xylose-binding protein][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein][side 1]
-
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[xylose-binding protein][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein][side 1]
-
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[xylose-binding protein][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein][side 1]
-
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[xylose-binding protein][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein][side 1]
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[xylose-binding protein][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein][side 1]
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[xylose-binding protein][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein][side 1]
-
Substrates: -
Products: -
Products: -
?
ATP + H2O + D-xylose-[xylose-binding protein][side 1]
ADP + phosphate + D-xylose[side 2] + [xylose-binding protein][side 1]
Yarrowia lipolytica ATCC MYA-2613
-
Substrates: -
Products: -
Products: -
?
ATP + H2O + L-arabinose-[arabinose-binding protein][side 1]
ADP + phosphate + L-arabinose[side 2] + [arabinose-binding protein][side 1]
-
Substrates: -
Products: -
Products: -
?
ATP + H2O + L-arabinose-[arabinose-binding protein][side 1]
ADP + phosphate + L-arabinose[side 2] + [arabinose-binding protein][side 1]
-
Substrates: -
Products: -
Products: -
?
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pI VALUE
ORGANISM
UNIPROT
COMMENTARY
LITERATURE
8.7
ATPase subunit XylG, calculated from amino acid sequence
9.7
integral membrane protein subunit XylH, calculated from amino acid sequence
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ORGANISM
COMMENTARY
LITERATURE
UNIPROT
SEQUENCE DB
SOURCE
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LOCALIZATION
ORGANISM
UNIPROT
COMMENTARY
GeneOntology No.
LITERATURE
SOURCE
Highest Expressing Human Cell Lines
Cell Line LinksPlease wait a moment until the data is sorted. This message will disappear when the data is sorted.
UNIPROT
ENTRY NAME
ORGANISM
NO. OF AA
NO. OF TRANSM. HELICES
MOLECULAR WEIGHT[Da]
SOURCE
SEQUENCE
LOCALIZATION PREDICTION
The reliability class of the localization prediction ranges from 1 (very reliable) to 5 (not reliable).
The reliability class of the localization prediction ranges from 1 (very reliable) to 5 (not reliable). XYLG_BURCH
Burkholderia cenocepacia (strain HI2424)
519
0
55855
Swiss-Prot
-
XYLG_HAEIN
Haemophilus influenzae (strain ATCC 51907 / DSM 11121 / KW20 / Rd)
503
0
55680
Swiss-Prot
other Location (Reliability: 4)
XYLG_BURCM
Burkholderia ambifaria (strain ATCC BAA-244 / DSM 16087 / CCUG 44356 / LMG 19182 / AMMD)
519
0
56061
Swiss-Prot
-
XYLG_ECOL5
Escherichia coli O6:K15:H31 (strain 536 / UPEC)
513
0
56484
Swiss-Prot
-
XYLG_SHIF8
Shigella flexneri serotype 5b (strain 8401)
513
0
56514
Swiss-Prot
-
XYLG_PARXL
Paraburkholderia xenovorans (strain LB400)
519
0
55999
Swiss-Prot
Secretory Pathway (Reliability: 5)
XYLG_YERPA
Yersinia pestis bv. Antiqua (strain Antiqua)
510
0
56249
Swiss-Prot
-
XYLG_YERPN
Yersinia pestis bv. Antiqua (strain Nepal516)
510
0
56249
Swiss-Prot
-
XYLG_BURO1
Burkholderia orbicola (strain AU 1054)
519
0
55855
Swiss-Prot
other Location (Reliability: 3)
XYLG_ECOUT
Escherichia coli (strain UTI89 / UPEC)
513
0
56430
Swiss-Prot
-
XYLG_BURTA
Burkholderia thailandensis (strain ATCC 700388 / DSM 13276 / CCUG 48851 / CIP 106301 / E264)
519
0
55986
Swiss-Prot
-
XYLG_MOOTA
Moorella thermoacetica (strain ATCC 39073 / JCM 9320)
504
0
55727
Swiss-Prot
other Location (Reliability: 1)
XYLG_SHIBS
Shigella boydii serotype 4 (strain Sb227)
513
0
56440
Swiss-Prot
other Location (Reliability: 2)
XYLG_PSEPF
Pseudomonas fluorescens (strain Pf0-1)
518
0
56354
Swiss-Prot
other Location (Reliability: 1)
XYLG_PSE14
Pseudomonas savastanoi pv. phaseolicola (strain 1448A / Race 6)
518
0
56238
Swiss-Prot
-
XYLG_PSEU2
Pseudomonas syringae pv. syringae (strain B728a)
518
0
56144
Swiss-Prot
-
XYLG_BRUAB
Brucella abortus biovar 1 (strain 9-941)
511
0
55814
Swiss-Prot
-
XYLG_GEOKA
Geobacillus kaustophilus (strain HTA426)
504
0
56302
Swiss-Prot
Mitochondrion (Reliability: 2)
XYLG_YERPS
Yersinia pseudotuberculosis serotype I (strain IP32953)
510
0
56249
Swiss-Prot
other Location (Reliability: 3)
XYLG_PECAS
Pectobacterium atrosepticum (strain SCRI 1043 / ATCC BAA-672)
513
0
56783
Swiss-Prot
Mitochondrion (Reliability: 1)
XYLG_PHOPR
Photobacterium profundum (strain SS9)
507
0
55351
Swiss-Prot
-
XYLG_THEP3
Thermoanaerobacter pseudethanolicus (strain ATCC 33223 / 39E)
505
0
56706
Swiss-Prot
-
XYLG_PSESM
Pseudomonas syringae pv. tomato (strain ATCC BAA-871 / DC3000)
528
0
57351
Swiss-Prot
-
XYLG_ECOL6
Escherichia coli O6:H1 (strain CFT073 / ATCC 700928 / UPEC)
513
0
56484
Swiss-Prot
-
XYLG_BRUSU
Brucella suis biovar 1 (strain 1330)
511
0
55851
Swiss-Prot
-
XYLG_BRUME
Brucella melitensis biotype 1 (strain ATCC 23456 / CCUG 17765 / NCTC 10094 / 16M)
511
0
55948
Swiss-Prot
other Location (Reliability: 1)
XYLG_RALN1
Ralstonia nicotianae (strain ATCC BAA-1114 / GMI1000)
514
0
55485
Swiss-Prot
other Location (Reliability: 1)
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SUBUNIT
ORGANISM
UNIPROT
COMMENTARY
LITERATURE
?
x * 56700, ATPase subunit XylG, calculated from amino acid sequence
?
x * 41300, integral membrane protein subunit XylH, calculated from amino acid sequence
?
-
x * 56700, ATPase subunit XylG, calculated from amino acid sequence
-
?
-
x * 41300, integral membrane protein subunit XylH, calculated from amino acid sequence
-
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PROTEIN VARIANTS
ORGANISM
UNIPROT
COMMENTARY
LITERATURE
Q31K
the mutation results in immediate and efficient anaerobic D-xylose consumption
S184L
-
the mutation of GatC is responsible for a higher xylose transport ability
K9A/N351S/K538A
-
the mutant strain achieves the co-utilization of glucose and xylose. The mutation promotes the production of D-xylonate in Candida glycerinogenes
N351F
-
the mutation enhances the growth of the recombinant strain in xylose medium and reduces the growth in glucose medium compared to the wild type
N351L
-
the mutation does not affect the xylose transport function of the enzyme
N351S
-
the mutation results in a greatly enhanced xylose transport and a slightly reduced glucose transport. The mutation enhances the growth of the recombinant strain in xylose medium and reduces the growth in glucose medium compared to the wild type
N351V
-
the mutation reduces the growth of the recombinant strain in xylose and glucose medium compared to the wild type
N351Y
-
the mutation reduces the growth of the recombinant strain in xylose and glucose medium compared to the wild type
N351F
Pichia kudriavzevii WL2002-5
-
the mutation enhances the growth of the recombinant strain in xylose medium and reduces the growth in glucose medium compared to the wild type
-
N351L
Pichia kudriavzevii WL2002-5
-
the mutation does not affect the xylose transport function of the enzyme
-
N351S
Pichia kudriavzevii WL2002-5
-
the mutation results in a greatly enhanced xylose transport and a slightly reduced glucose transport. The mutation enhances the growth of the recombinant strain in xylose medium and reduces the growth in glucose medium compared to the wild type
-
N351V
Pichia kudriavzevii WL2002-5
-
the mutation reduces the growth of the recombinant strain in xylose and glucose medium compared to the wild type
-
N351Y
Pichia kudriavzevii WL2002-5
-
the mutation reduces the growth of the recombinant strain in xylose and glucose medium compared to the wild type
-
D39A
the mutant shows severely reduced D-xylose and D-glucose transport capacities as compared to the wild type enzyme
F298A
the mutant shows severely reduced D-xylose and D-glucose transport capacities as compared to the wild type enzyme
F300A
the variant grows on D-glucose but loses D-xylose transport activity
F300W
the mutant shows severely reduced D-xylose and slightly reduced D-glucose transport capacities as compared to the wild type enzyme
F300Y
the mutant shows severely reduced D-xylose capacity as compared to the wild type enzyme, and wild type D-glucose transport capacity
N326F
the variant is able to carry a high efficiency transport for D-xylose but is nearly unable to utilize D-glucose
N326Y
the mutant shows strongly reduced D-xylose and severely reduced D-glucose transport capacities as compared to the wild type enzyme
N434A
the mutant shows severely reduced D-xylose and D-glucose transport capacities as compared to the wild type enzyme
Q288A
the mutant shows severely reduced D-xylose and slightly reduced D-glucose transport capacities as compared to the wild type enzyme
Q291A
the mutant shows reduced D-xylose capacity as compared to the wild type enzyme, and wild type D-glucose transport capacity
Q292A
the mutant shows severely reduced D-xylose and slightly reduced D-glucose transport capacities as compared to the wild type enzyme
R132A
the mutant shows severely reduced D-xylose and D-glucose transport capacities as compared to the wild type enzyme
W407A
the mutant shows severely reduced D-xylose and D-glucose transport capacities as compared to the wild type enzyme
Y301A
the mutant shows severely reduced D-xylose and D-glucose transport capacities as compared to the wild type enzyme
Y302A
the mutant shows severely reduced D-xylose and D-glucose transport capacities as compared to the wild type enzyme
D39A
-
the mutant shows severely reduced D-xylose and D-glucose transport capacities as compared to the wild type enzyme
-
F300A
-
the variant grows on D-glucose but loses D-xylose transport activity
-
N326F
-
the variant is able to carry a high efficiency transport for D-xylose but is nearly unable to utilize D-glucose
-
Q288A
-
the mutant shows severely reduced D-xylose and slightly reduced D-glucose transport capacities as compared to the wild type enzyme
-
R132A
-
the mutant shows severely reduced D-xylose and D-glucose transport capacities as compared to the wild type enzyme
-
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PURIFICATION (Commentary)
ORGANISM
UNIPROT
LITERATURE
Ni-NTA agarose column chromatography and Superdex S200 gel filtration
-
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CLONED (Commentary)
ORGANISM
UNIPROT
LITERATURE
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EXPRESSION
ORGANISM
UNIPROT
LITERATURE
LytS/YesN directly activates the transcription of the adjacent xylFGH genes
XylR is the activator of arabinose/xylose inducible regulon
LytS/YesN directly activates the transcription of the adjacent xylFGH genes
-
LytS/YesN directly activates the transcription of the adjacent xylFGH genes
-
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REF.
AUTHORS
TITLE
JOURNAL
VOL.
PAGES
YEAR
ORGANISM (UNIPROT)
PUBMED ID
SOURCE
Erbeznik, M.; Hudson, S.E.; Herrman, A.B.; Strobel, H.J.
Molecular analysis of the xylFGH operon, coding for xylose ABC transport, in Thermoanaerobacter ethanolicus
Curr. Microbiol.
48
295-299
2004
Thermoanaerobacter ethanolicus (Q6VMN4), Thermoanaerobacter ethanolicus, Thermoanaerobacter ethanolicus ATCC 33223 (Q6VMN4)
brenda
Khankal, R.; Chin, J.W.; Cirino, P.C.
Role of xylose transporters in xylitol production from engineered Escherichia coli
J. Biotechnol.
134
246-252
2008
Escherichia coli, Escherichia coli W3110
brenda
Shin, J.; Roh, D.; Heo, G.; Joo, G.; Rhee, I.
Purification and characterization of a regulatory protein XylR in the D-xylose operon from Escherichia coli
J. Microbiol. Biotechnol.
11
1002-1010
2001
Escherichia coli
-
brenda
Utrilla, J.; Licona-Cassani, C.; Marcellin, E.; Gosset, G.; Nielsen, L.K.; Martinez, A.
Engineering and adaptive evolution of Escherichia coli for D-lactate fermentation reveals GatC as a xylose transporter
Metab. Eng.
14
469-476
2012
Escherichia coli
brenda
Sun, Z.; Chen, Y.; Yang, C.; Yang, S.; Gu, Y.; Jiang, W.
A novel three-component system-based regulatory model for D-xylose sensing and transport in Clostridium beijerinckii
Mol. Microbiol.
95
576-589
2015
Clostridium beijerinckii, Clostridium beijerinckii NCIMB 8052
brenda
Ryu, S.; Trinh, C.T.
Understanding functional roles of native pentose-specific transporters for activating dormant pentose metabolism in Yarrowia lipolytica
Appl. Environ. Microbiol.
84
e02146-17
2018
Yarrowia lipolytica, Yarrowia lipolytica ATCC MYA-2613
brenda
Guirimand, G.G.Y.; Bamba, T.; Matsuda, M.; Inokuma, K.; Morita, K.; Kitada, Y.; Kobayashi, Y.; Yukawa, T.; Sasaki, K.; Ogino, C.; Hasunuma, T.; Kondo, A.
Combined cell surface display of beta-D-glucosidase (BGL), maltose transporter (MAL11), and overexpression of cytosolic xylose reductase (XR) in Saccharomyces cerevisiae enhance cellobiose/xylose coutilization for xylitol bioproduction from lignocellulosic B
Biotechnol. J.
14
e1800704
2019
Saccharomyces cerevisiae
brenda
Qiao, Y.; Li, C.; Lu, X.; Zong, H.; Zhuge, B.
Transporter engineering promotes the co-utilization of glucose and xylose by Candida glycerinogenes for D-xylonate production
Biochem. Eng. J.
175
108150
2021
Pichia kudriavzevii, Pichia kudriavzevii WL2002-5
-
brenda
Heo, J.; Kim, H.; Lee, S.
Efficient anaerobic consumption of D-xylose by E. coli BL21(DE3) via xylR adaptive mutation
BMC Microbiol.
21
332
2021
Escherichia coli (P37387)
brenda
Osiro, K.; Brink, D.; Borgstrm, C.; Wasserstrom, L.; Carlquist, M.; Gorwa-Grauslund, M.
Assessing the effect of D-xylose on the sugar signaling pathways of Saccharomyces cerevisiae in strains engineered for xylose transport and assimilation
FEMS Yeast Res.
18
fox096
2018
Saccharomyces cerevisiae, Saccharomyces cerevisiae W303-1A
brenda
van der Kolk, N.; Wagner, A.; Wagner, M.; Wassmer, B.; Siebers, B.; Albers, S.V.
Identification of XylR, the activator of arabinose/xylose inducible regulon in Sulfolobus acidocaldarius and its application for homologous protein expression
Front. Microbiol.
11
1066
2020
Sulfolobus acidocaldarius, Sulfolobus acidocaldarius MW001
brenda
Jiang, Y.; Shen, Y.; Gu, L.; Wang, Z.; Su, N.; Niu, K.; Guo, W.; Hou, S.; Bao, X.; Tian, C.; Fang, X.
Identification and characterization of an efficient D-xylose transporter in Saccharomyces cerevisiae
J. Agric. Food Chem.
68
2702-2710
2020
Trichoderma reesei (G0RN44), Trichoderma reesei QM6a (G0RN44)
brenda
EXTERNAL LINKS (specific for EC-Number 7.5.2.10)
Transporter Classification Database (TCDB): 3.A.1.2.4
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Release 2026.1 (March 2026)
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