P-POD: Princeton Protein Orthology Database: GO3/Para1306

This family has 144 members: 44 Arabidopsis thaliana, 6 Caenorhabditis elegans, 10 Danio rerio, 1 Dictyostelium discoideum, 16 Drosophila melanogaster, 3 Escherichia coli, 9 Gallus gallus, 8 Homo sapiens, 7 Mus musculus, 7 Rattus norvegicus, 23 Saccharomyces cerevisiae, 10 Schizosaccharomyces pombe.

Interactive Java Applets: Notung Tree Analysis · Jalview Alignment

GO3/Para1306
144 members.
OrganismProtein (Synonyms)DescriptionAmiGO
A. thalianaNCBI:NP_174313.1 · TAIR:locus:2009832 (F12P21.2 · AT1G30220 · ATINT2 · F12P21_2 · INT2)INOSITOL TRANSPORTER 2 · ARABIDOPSIS THALIANA INOSITOL TRANSPORTER 2⌘
A. thalianaNCBI:NP_171996.2 · TAIR:locus:2205548 (T7A14_10 · AT1G05030 · T7A14.10)⌘
A. thalianaNCBI:NP_186959.2 · TAIR:locus:2097780 (T17B22.22 · AT3G03090 · T17B22_22 · AtVGT1)Arabidopsis thaliana vacuolar glucose transporter 1⌘
A. thalianaNCBI:NP_568328.1 · TAIR:locus:2181422 (PGLCT · AT5G16150 · T21H19_70 · T21H19.70 · GLT1)PLASTIDIC GLC TRANSLOCATOR · GLUCOSE TRANSPORTER 1⌘
A. thalianaNCBI:NP_187191.2 · TAIR:locus:2079802 (F22F7.16 · AT3G05400 · F22F7_16)⌘
A. thalianaNCBI:NP_188681.1 · TAIR:locus:2092379 (MQC12.5 · AT3G20460)⌘
A. thalianaNCBI:NP_850964.1 · TAIR:locus:2199539 (T22H22_15 · AT1G54730 · T22H22.15)⌘
A. thalianaNCBI:NP_187166.2 · TAIR:locus:2096219 (T12H1.11 · T12H1_11 · AT3G05150)⌘
A. thalianaNCBI:NP_850983.1 · TAIR:locus:2017899 (F20B17_24 · SGB1 · AT1G79820 · F20B17.24)SUPPRESSOR OF G PROTEIN BETA1⌘
A. thalianaNCBI:NP_188627.1 · TAIR:locus:2092286 (ATSTP4 · AT3G19930 · MPN9.19 · STP4)SUGAR TRANSPORTER 4⌘
A. thalianaNCBI:NP_193879.1 · TAIR:locus:2119657 (F18E5_100 · AT4G21480 · F18E5.100)⌘
A. thalianaNCBI:NP_175449.1 · TAIR:locus:2011957 (AtSTP9 · ATSTP9 · AT1G50310 · F14I3_9 · STP9 · F14I3.9)SUGAR TRANSPORTER 9⌘
A. thalianaNCBI:NP_172364.3 · TAIR:locus:2036039 (F7G19.23 · F7G19_23 · AT1G08890)⌘
A. thalianaNCBI:NP_181117.1 · TAIR:locus:2058774 (T20F21_7 · INT3 · ATINT3 · AT2G35740 · T20F21.7)NOSITOL TRANSPORTER 3⌘
A. thalianaNCBI:NP_172592.1 · TAIR:locus:2202044 (T28P6.9 · STP1 · AT1G11260 · T28P6_9 · ATSTP1)SUGAR TRANSPORTER 1⌘
A. thalianaNCBI:NP_173377.1 · TAIR:locus:2016407 (F18O14_22 · AT1G19450 · F18O14.22)⌘
A. thalianaNCBI:NP_566248.1 · TAIR:locus:505006329 (AT3G05165)⌘
A. thalianaNCBI:NP_200960.2 · TAIR:locus:2151596 (K11J9.8 · K11J9_8 · AT5G61520)⌘
A. thalianaNCBI:NP_566247.1 · TAIR:locus:2096234 (AT3G05160 · T12H1.12)⌘
A. thalianaNCBI:NP_193381.1 · TAIR:locus:2130689 (FCAALL.375 · DL4265W · ATINT4 · AT4G16480 · INT4)INOSITOL TRANSPORTER 4⌘
A. thalianaNCBI:NP_568493.1 · TAIR:locus:2146350 (AT5G27350 · F21A20_60 · F21A20.60 · SFP1)⌘
A. thalianaNCBI:NP_172214.2 · TAIR:locus:2025102 (STP2 · F22G5_32 · F22G5.32 · ATSTP2 · AT1G07340)SUGAR TRANSPORTER 2⌘
A. thalianaNCBI:NP_850393.1 · TAIR:locus:2058193 (ATINT1 · AT2G43330 · T1O24.7 · INT1)INOSITOL TRANSPORTER 1⌘
A. thalianaNCBI:NP_568367.1 · TAIR:locus:2144975 (F17K4.90 · AT5G18840 · F17K4_90)⌘
A. thalianaNCBI:NP_683530.2 · TAIR:locus:504955729 (AT3G05155)⌘
A. thalianaNCBI:NP_198006.1 · TAIR:locus:2151074 (F9D12_17 · STP13 · F9D12.17 · MSS1 · AT5G26340)sugar transport protein 13⌘
A. thalianaNCBI:NP_177658.1 · TAIR:locus:2025132 (F22H5_6 · AT1G75220 · F22H5.6)⌘
A. thalianaNCBI:NP_849618.1 · TAIR:locus:2035984 (F7G19.20 · F7G19_20 · AT1G08920)⌘
A. thalianaNCBI:NP_192384.2 · TAIR:locus:2138927 (T4B21_10 · AT4G04750 · T4B21.10)⌘
A. thalianaNCBI:NP_563828.2 · TAIR:locus:2036009 (F7G19_22 · AT1G08900 · F7G19.22)⌘
A. thalianaNCBI:NP_849855.2 · TAIR:locus:2019554 (AT1G67300 · F1N21.12)⌘
A. thalianaNCBI:NP_850483.1 · TAIR:locus:2066400 (AT2G48020 · T9J23.17)⌘
A. thalianaNCBI:NP_568494.1 · TAIR:locus:2146365 (AT5G27360 · F21A20_70 · SFP2 · F21A20.70)⌘
A. thalianaNCBI:NP_200733.2 · TAIR:locus:2168494 (MNC17.15 · MNC17_15 · AT5G59250)⌘
A. thalianaNCBI:NP_563830.1 · TAIR:locus:2036084 (ERD6 · AT1G08930 · F7G19_19 · F7G19.19)EARLY RESPONSE TO DEHYDRATION 6⌘
A. thalianaNCBI:NP_850835.2 · TAIR:locus:2148201 (F2K13_160 · AT5G17010 · F2K13.160)⌘
A. thalianaNCBI:NP_197997.1 · TAIR:locus:2179734 (T19G15_100 · T19G15.100 · AT5G26250)⌘
A. thalianaNCBI:NP_177845.1 · TAIR:locus:2195995 (AT1G77210 · T14N5.7 · T14N5_7)⌘
A. thalianaNCBI:NP_174718.1 · TAIR:locus:2009323 (F12K21_8 · AT1G34580 · F12K21.8)⌘
A. thalianaNCBI:NP_188628.1 · TAIR:locus:2092221 (MPN9.18 · AT3G19940)⌘
A. thalianaNCBI:NP_197718.1 · TAIR:locus:2166781 (MKD15.13 · ATSTP11 · MKD15_13 · AT5G23270 · STP11)SUGAR TRANSPORTER 11⌘
A. thalianaNCBI:NP_192385.2 · TAIR:locus:2138932 (T4B21.9 · T4B21_9 · AT4G04760)⌘
A. thalianaNCBI:NP_192114.1 · TAIR:locus:2132213 (T10M13.6 · T10M13_6 · AT4G02050)⌘
A. thalianaNCBI:NP_187247.1 · TAIR:locus:2083003 (STP6 · AtSTP6 · F2O10.8 · ATSTP6 · AT3G05960 · F2O10_8)SUGAR TRANSPORTER 6⌘
C. elegansWB:WBGene00019979 (R09B5.11) · UniProtKB:O44616⌘
C. elegansWB:WBGene00019207 (H17B01.1) · UniProtKB:O44827⌘
C. elegansWB:WBGene00018779 (F53H8.3) · UniProtKB:Q20734⌘
C. elegansWB:WBGene00010811 (M01F1.5 · hmit-1.3) · UniProtKB:Q21455⌘
C. elegansWB:WBGene00013074 (hmit-1.2 · Y51A2D.5) · UniProtKB:Q9XXQ9⌘
C. elegansWB:WBGene00013073 (Y51A2D.4 · hmit-1.1) · UniProtKB:Q9XXR3⌘
D. rerioENSEMBL:ENSDARP00000054511
D. rerioENSEMBL:ENSDARP00000018250
D. rerioENSEMBL:ENSDARP00000076915
D. rerioENSEMBL:ENSDARP00000094696
D. rerioENSEMBL:ENSDARP00000012264
D. rerioUniProtKB:Q6NWF1 · ZFIN:ZDB-GENE-040426-1513 (slc2a12)solute carrier family 2 (facilitated glucose transporter), member 12⌘
D. rerioUniProtKB:Q102R8 · ZFIN:ZDB-GENE-030131-1213 (slc2a2)solute carrier family 2 (facilitated glucose transporter), member 2⌘
D. rerioUniProtKB:Q285P3 · ZFIN:ZDB-GENE-030131-3158 (slc2a1)solute carrier family 2, member 1⌘
D. rerioZFIN:ZDB-GENE-040718-390 (zgc:92476) · UniProtKB:Q6DFZ5⌘
D. rerioUniProtKB:Q7ZWH3 · ZFIN:ZDB-GENE-030829-25 (slc2a8l)solute carrier family 2 (facilitated glucose transporter), member 8-like⌘
D. discoideumNCBI:EAL68303.1 · dictyBase:DDB_G0278261 (SLC2A · DDB_G0278261)solute carrier family 2 member protein, putative myo-inositol cotransporter, sugar transporter family protein⌘
D. melanogasterUniProtKB:Q8IRI6 · FB:FBgn0025593 (glut1 · Dmglut1 · Glut1 · CG1086 · GLU)Glucose transporter 1 · glucose transporter 1⌘
D. melanogasterUniProtKB:P53403 · FB:FBgn0015230 (CG3853 · glut-l · Glut3 · GLU)Glucose transporter-like · Glucose transporter type 3⌘
D. melanogasterFB:FBgn0033047 (CG7882) · UniProtKB:A1Z6I4⌘
D. melanogasterFB:FBgn0050035 (CG30035 · CG7801 · CG7797) · UniProtKB:A1Z8N1⌘
D. melanogasterFB:FBgn0037387 (CG1213 · CT30783) · UniProtKB:Q7JVN6⌘
D. melanogasterUniProtKB:Q7K2U8 · FB:FBgn0028560 (sut4 · CG1380)sugar transporter 4⌘
D. melanogasterFB:FBgn0034247 (CG6484) · UniProtKB:Q7K3P6⌘
D. melanogasterUniProtKB:Q7KK97 · FB:FBgn0028563 (CG8714 · sut1)sugar transporter 1⌘
D. melanogasterFB:FBgn0053281 (CG33281 · CG15407) · UniProtKB:Q8IPZ9⌘
D. melanogasterFB:FBgn0033644 (CG8234) · UniProtKB:Q8MKK4⌘
D. melanogasterUniProtKB:Q8MLQ7 · FB:FBgn0034909 (CG4797)Sugar transporter-like⌘
D. melanogasterFB:FBgn0037386 (CG1208) · UniProtKB:Q8T0T6⌘
D. melanogasterUniProtKB:Q8T3V4 · FB:FBgn0028561 (CG17976 · sut3)sugar transporter 3⌘
D. melanogasterUniProtKB:Q9U622 · FB:FBgn0028562 (CG17975 · sut2)sugar transporter 2⌘
D. melanogasterFB:FBgn0031522 (CG3285) · UniProtKB:Q9VQP1⌘
D. melanogasterFB:FBgn0036316 (CT30701 · CG10960) · UniProtKB:Q9VU17⌘
E. coliUniProtKB:P0AE24 · ECOLI:ARAE-MONOMER (AraE · araE · ECK2839 · b2841)AraE arabinose MFS transporter⌘
E. coliUniProtKB:P0AEP1 · ECOLI:GALP-MONOMER (GalP · ECK2938 · galP · b2943 · Pgal)GalP - galactose MFS transporter⌘
E. coliUniProtKB:P0AGF4 · ECOLI:XYLE-MONOMER (XylE · b4031 · ECK4023 · xylE)XylE xylose MFS transporter⌘
G. gallusNCBI:XP_415227 · ENTREZ:416935
G. gallusNCBI:XP_415207 · ENTREZ:416916
G. gallusNCBI:XP_417383 · ENTREZ:419206
G. gallusNCBI:XP_001232940 · ENTREZ:769652
G. gallusNCBI:XP_419733 · ENTREZ:421696
G. gallusENTREZ:396130 · UniProtKB:P46896 (P46896 · GTR1_CHICK · SLC2A1 · IPI00578021 · GLUT1)Solute carrier family 2, facilitated glucose transporter member 1⌘
G. gallusENTREZ:396272 · UniProtKB:Q90592 (GLUT-2 · Q90592 · IPI00590163 · SLC2A2 · GTR2_CHICK · GLUT2)Solute carrier family 2, facilitated glucose transporter member 2⌘
G. gallusENTREZ:396517 · UniProtKB:P28568 (P28568 · GTR3_CHICK · GLUT3 · IPI00595032 · SLC2A3)Solute carrier family 2, facilitated glucose transporter member 3⌘
G. gallusUniProtKB:Q8AYP6 (IPI00589892 · Q8AYP6 · GLUT8) · ENTREZ:378802⌘
H. sapiensENSEMBL:ENSG00000197496 · UniProtKB:O95528 (GTR10_HUMAN · SLC2A10 · O95528 · IPI00219424 · GLUT10)Solute carrier family 2, facilitated glucose transporter member 10⌘
H. sapiensENSEMBL:ENSG00000146411 · UniProtKB:Q8TD20 (GTR12_HUMAN · GLUT12 · Q8TD20 · IPI00152424 · GLUT8 · SLC2A12)Solute carrier family 2, facilitated glucose transporter member 12⌘
H. sapiensENSEMBL:ENSG00000173262 · UniProtKB:Q8TDB8 (IPI00555680 · GLUT3 · GTR14_HUMAN · GLUT14 · Q8TDB8 · IPI00152505 · IPI00607720 · SLC2A14)Solute carrier family 2, facilitated glucose transporter member 14⌘
H. sapiensENSEMBL:ENSG00000117394 · UniProtKB:P11166 (GTR1_HUMAN · IPI00220194 · SLC2A1 · P11166 · GLUT1)Solute carrier family 2, facilitated glucose transporter member 1⌘
H. sapiensENSEMBL:ENSG00000163581 · UniProtKB:P11168 (GTR2_HUMAN · IPI00003905 · SLC2A2 · P11168 · GLUT2)Solute carrier family 2, facilitated glucose transporter member 2⌘
H. sapiensENSEMBL:ENSG00000059804 · UniProtKB:P11169 (P11169 · GTR3_HUMAN · IPI00003909 · GLUT3 · SLC2A3)Solute carrier family 2, facilitated glucose transporter member 3⌘
H. sapiensENSEMBL:ENSG00000136856 · UniProtKB:Q9NY64 (IPI00302242 · GTR8_HUMAN · GLUT8 · SLC2A8 · GLUTX1 · Q9NY64)Solute carrier family 2, facilitated glucose transporter member 8⌘
H. sapiensENSEMBL:ENSG00000151229 · UniProtKB:Q96QE2 (MYCT_HUMAN · IPI00044823 · SLC2A13 · Q96QE2)Proton myo-inositol cotransporter⌘
M. musculusUniProtKB:Q8VHD6 · MGI:MGI:2156687 (Glut10 · Slc2a10)solute carrier family 2 (facilitated glucose transporter), member 10⌘
M. musculusUniProtKB:Q8BFW9 · MGI:MGI:3052471 (Glut12 · GLUT-12 · Slc2a12)solute carrier family 2 (facilitated glucose transporter), member 12⌘
M. musculusUniProtKB:P17809 · MGI:MGI:95755 (Glut-1 · Glut1 · Slc2a1)solute carrier family 2 (facilitated glucose transporter), member 1⌘
M. musculusUniProtKB:P14246 · MGI:MGI:1095438 (Slc2a2 · Glut-2 · Glut2)solute carrier family 2 (facilitated glucose transporter), member 2 · liver-type glucose transporter⌘
M. musculusUniProtKB:P32037 · MGI:MGI:95757 (Slc2a3 · Glut3 · Glut-3)solute carrier family 2 (facilitated glucose transporter), member 3⌘
M. musculusUniProtKB:Q9JIF3 · MGI:MGI:1860103 (GlutX1 · Slc2a8 · GLUT8 · D2Ertd44e)solute carrier family 2, (facilitated glucose transporter), member 8⌘
M. musculusUniProtKB:Q3UHK1 · MGI:MGI:2146030 (Slc2a13)solute carrier family 2 (facilitated glucose transporter), member 13⌘
R. norvegicusNCBI:XP_217745 · RGD:1310175
R. norvegicusNCBI:XP_001072818 · RGD:1306552 (Slc2a10)solute carrier family 2 (facilitated glucose transporter), member 10⌘
R. norvegicusUniProtKB:P11167 · RGD:3704 (Slc2a1)solute carrier family 2 (facilitated glucose transporter), member 1⌘
R. norvegicusRGD:3705 (Slc2a2) · UniProtKB:P12336 (GTR2_RAT · IPI00882453 · Slc2a2 · Glut-2 · Glut2 · P12336)solute carrier family 2 (facilitated glucose transporter), member 2 · Solute carrier family 2, facilitated glucose transporter member 2⌘⌘
R. norvegicusRGD:3706 (Slc2a3) · UniProtKB:Q07647 (Slc2a3 · GTR3_RAT · Glut3 · Glut-3 · IPI00198723 · Q07647)solute carrier family 2 (facilitated glucose transporter), member 3 · Solute carrier family 2, facilitated glucose transporter member 3⌘⌘
R. norvegicusUniProtKB:Q9JJZ1 · RGD:620611 (Slc2a8)solute carrier family 2, (facilitated glucose transporter) member 8⌘
R. norvegicusUniProtKB:Q921A2 · RGD:621814 (Slc2a13)solute carrier family 2 (facilitated glucose transporter), member 13⌘
S. cerevisiaeUniProtKB:P13181 · SGD:S000004071 (YLR081W · GAL2)Galactose permease, required for utilization of galactose⌘
S. cerevisiaeUniProtKB:P43581 · SGD:S000001883 (YFL011W · HXT10)Putative hexose transporter, expressed at low levels and expression is repressed by glucose⌘
S. cerevisiaeUniProtKB:P54862 · SGD:S000005516 (HXT11 · LGT3 · YOL156W)Putative hexose transporter that is nearly identical to Hxt9p, has similarity to major facilitator superfamily (MFS) transporters and is involved in pleiotropic drug resistance⌘
S. cerevisiaeUniProtKB:P39924 · SGD:S000000795 (HXT13 · YEL069C)Hexose transporter, induced in the presence of non-fermentable carbon sources, induced by low levels of glucose, repressed by high levels of glucose⌘
S. cerevisiaeUniProtKB:P42833 · SGD:S000005262 (YNL318C · HXT14)Protein with similarity to hexose transporter family members, expression is induced in low glucose and repressed in high glucose⌘
S. cerevisiaeUniProtKB:P54854 · SGD:S000002404 (YDL245C · HXT15)Protein of unknown function with similarity to hexose transporter family members, expression is induced by low levels of glucose and repressed by high levels of glucose⌘
S. cerevisiaeUniProtKB:P47185 · SGD:S000003919 (YJR158W · HXT16)Protein of unknown function with similarity to hexose transporter family members, expression is repressed by high levels of glucose⌘
S. cerevisiaeUniProtKB:P53631 · SGD:S000005355 (YNR072W · HXT17)Hexose transporter, up-regulated in media containing raffinose and galactose at pH 7.7 versus pH 4.7, repressed by high levels of glucose⌘
S. cerevisiaeUniProtKB:P32465 · SGD:S000001136 (HOR4 · HXT1 · YHR094C)Low-affinity glucose transporter of the major facilitator superfamily, expression is induced by Hxk2p in the presence of glucose and repressed by Rgt1p when glucose is limiting⌘
S. cerevisiaeUniProtKB:P23585 · SGD:S000004613 (YMR011W · HXT2)High-affinity glucose transporter of the major facilitator superfamily, expression is induced by low levels of glucose and repressed by high levels of glucose⌘
S. cerevisiaeUniProtKB:P32466 · SGD:S000002753 (HXT3 · YDR345C)Low affinity glucose transporter of the major facilitator superfamily, expression is induced in low or high glucose conditions⌘
S. cerevisiaeUniProtKB:P32467 · SGD:S000001134 (RAG1 · HXT4 · LGT1 · YHR092C)High-affinity glucose transporter of the major facilitator superfamily, expression is induced by low levels of glucose and repressed by high levels of glucose⌘
S. cerevisiaeUniProtKB:P38695 · SGD:S000001138 (YHR096C · HXT5)Hexose transporter with moderate affinity for glucose, induced in the presence of non-fermentable carbon sources, induced by a decrease in growth rate, contains an extended N-terminal domain relative to other HXTs⌘
S. cerevisiaeUniProtKB:P39003 · SGD:S000002751 (YDR343C · HXT6)High-affinity glucose transporter of the major facilitator superfamily, nearly identical to Hxt7p, expressed at high basal levels relative to other HXTs, repression of expression by high glucose requires SNF3⌘
S. cerevisiaeUniProtKB:P39004 · SGD:S000002750 (HXT7 · YDR342C)High-affinity glucose transporter of the major facilitator superfamily, nearly identical to Hxt6p, expressed at high basal levels relative to other HXTs, expression repressed by high glucose levels⌘
S. cerevisiaeUniProtKB:P40886 · SGD:S000003750 (YJL214W · HXT8)Protein of unknown function with similarity to hexose transporter family members, expression is induced by low levels of glucose and repressed by high levels of glucose⌘
S. cerevisiaeUniProtKB:P40885 · SGD:S000003755 (HXT9 · YJL219W)Putative hexose transporter that is nearly identical to Hxt11p, has similarity to major facilitator superfamily (MFS) transporters, expression of HXT9 is regulated by transcription factors Pdr1p and Pdr3p⌘
S. cerevisiaeUniProtKB:P30605 · SGD:S000002905 (ITR1 · YDR497C)Myo-inositol transporter with strong similarity to the minor myo-inositol transporter Itr2p, member of the sugar transporter superfamily⌘
S. cerevisiaeUniProtKB:P30606 · SGD:S000005463 (YOL103W · HRB612 · ITR2)Myo-inositol transporter with strong similarity to the major myo-inositol transporter Itr1p, member of the sugar transporter superfamily⌘
S. cerevisiaeUniProtKB:Q12300 · SGD:S000002297 (YDL138W · RGT2)Plasma membrane glucose receptor, highly similar to Snf3p⌘
S. cerevisiaeUniProtKB:P10870 · SGD:S000002353 (YDL194W · SNF3)Plasma membrane glucose sensor that regulates glucose transport⌘
S. cerevisiaeUniProtKB:P53142 · SGD:S000003072 (YGL104C · VPS73)Mitochondrial protein⌘
S. cerevisiaeUniProtKB:P38142 · SGD:S000000445 (YBR241C)Putative transporter, member of the sugar porter family⌘
S. pombeUniProtKB:Q9P3U6 · GeneDB_Spombe:SPCC548.07c (ght1 · SPCC548.07c)hexose transporter Ght1⌘
S. pombeUniProtKB:O74969 · GeneDB_Spombe:SPBC4B4.08 (ght2 · SPBC4B4.08)hexose transporter Ght2⌘
S. pombeUniProtKB:Q92339 · GeneDB_Spombe:SPAC1F8.01 (ght3 · SPAC1F8.01)hexose transporter Ght3⌘
S. pombeUniProtKB:O59932 · GeneDB_Spombe:SPBC1683.08 (ght4 · SPBC1683.08)hexose transporter Ght4⌘
S. pombeUniProtKB:P78831 · GeneDB_Spombe:SPCC1235.14 (SPCC1235.14 · ght5)hexose transporter Ght5⌘
S. pombeUniProtKB:O74849 · GeneDB_Spombe:SPCC1235.13 (meu12 · SPCC1235.13 · ght6)hexose transporter Ght6⌘
S. pombeUniProtKB:Q8TFG1 · GeneDB_Spombe:SPBC1348.14c (ght7 · SPBC1348.14c · SPBPB8B6.01c)hexose transporter Ght7⌘
S. pombeUniProtKB:Q9P3U7 · GeneDB_Spombe:SPCC548.06c (SPCC548.06c · ght8)hexose transporter Ght8⌘
S. pombeUniProtKB:Q10286 · GeneDB_Spombe:SPAC4F8.15 (SPAC4F8.15 · SPAC7D4.01 · itr1)myo-inositol transporter Itr1⌘
S. pombeUniProtKB:P87110 · GeneDB_Spombe:SPAC20G8.03 (itr2 · SPAC20G8.03)MFS myo-inositol transporter⌘
ProteinPublicationCurator Notes
UniProtKB:P23585 · SGD:S000004613PMID:17180689 Saloheimo A, et al. Xylose transport studies with xylose-utilizing Saccharomyces cerevisiae strains expressing heterologous and homologous permeases. Appl Microbiol Biotechnol. 2007 Apr;74(5):1041-52.The T. reesei protein Xlt1 was expressed in S. cerevisiae, but complementation was not directly tested. T. reesei Xlt1 allowed growth of a highly-engineered S. cerevisiae strain on xylose.
UniProtKB:P38695 · SGD:S000001138PMID:17180689 Saloheimo A, et al. Xylose transport studies with xylose-utilizing Saccharomyces cerevisiae strains expressing heterologous and homologous permeases. Appl Microbiol Biotechnol. 2007 Apr;74(5):1041-52.The T. reesei protein Xlt1 was expressed in S. cerevisiae, but complementation was not directly tested. T. reesei Xlt1 allowed growth of a highly-engineered S. cerevisiae strain on xylose.
UniProtKB:P32465 · SGD:S000001136PMID:17180689 Saloheimo A, et al. Xylose transport studies with xylose-utilizing Saccharomyces cerevisiae strains expressing heterologous and homologous permeases. Appl Microbiol Biotechnol. 2007 Apr;74(5):1041-52.The T. reesei protein Xlt1 was expressed in S. cerevisiae, but complementation was not directly tested. T. reesei Xlt1 allowed growth of a highly-engineered S. cerevisiae strain on xylose.
UniProtKB:P32467 · SGD:S000001134PMID:17180689 Saloheimo A, et al. Xylose transport studies with xylose-utilizing Saccharomyces cerevisiae strains expressing heterologous and homologous permeases. Appl Microbiol Biotechnol. 2007 Apr;74(5):1041-52.The T. reesei protein Xlt1 was expressed in S. cerevisiae, but complementation was not directly tested. T. reesei Xlt1 allowed growth of a highly-engineered S. cerevisiae strain on xylose.
UniProtKB:P32466 · SGD:S000002753PMID:17180689 Saloheimo A, et al. Xylose transport studies with xylose-utilizing Saccharomyces cerevisiae strains expressing heterologous and homologous permeases. Appl Microbiol Biotechnol. 2007 Apr;74(5):1041-52.The T. reesei protein Xlt1 was expressed in S. cerevisiae, but complementation was not directly tested. T. reesei Xlt1 allowed growth of a highly-engineered S. cerevisiae strain on xylose.
UniProtKB:P39003 · SGD:S000002751PMID:17180689 Saloheimo A, et al. Xylose transport studies with xylose-utilizing Saccharomyces cerevisiae strains expressing heterologous and homologous permeases. Appl Microbiol Biotechnol. 2007 Apr;74(5):1041-52.The T. reesei protein Xlt1 was expressed in S. cerevisiae, but complementation was not directly tested. T. reesei Xlt1 allowed growth of a highly-engineered S. cerevisiae strain on xylose.
UniProtKB:P39004 · SGD:S000002750PMID:17180689 Saloheimo A, et al. Xylose transport studies with xylose-utilizing Saccharomyces cerevisiae strains expressing heterologous and homologous permeases. Appl Microbiol Biotechnol. 2007 Apr;74(5):1041-52.The T. reesei protein Xlt1 was expressed in S. cerevisiae, but complementation was not directly tested. T. reesei Xlt1 allowed growth of a highly-engineered S. cerevisiae strain on xylose.
UniProtKB:P13181 · SGD:S000004071PMID:12529516 Scholz-Starke J, et al. AtSTP6, a new pollen-specific H+-monosaccharide symporter from Arabidopsis. Plant Physiol. 2003 Jan;131(1):70-7.The A. thaliana protein AT3G05960.1 complements a homologous mutation in S. cerevisiae. A. thaliana STP6 complements a yeast strain mutated for 20 hexose transporter genes: HXT1 through HXT17 (including, but not counting, HXT12, which is a pseudogene), GAL2, MAL11 (aka AGT1), MPH2, and MPH3.
UniProtKB:P53631 · SGD:S000005355PMID:12529516 Scholz-Starke J, et al. AtSTP6, a new pollen-specific H+-monosaccharide symporter from Arabidopsis. Plant Physiol. 2003 Jan;131(1):70-7.The A. thaliana protein AT3G05960.1 complements a homologous mutation in S. cerevisiae. A. thaliana STP6 complements a yeast strain mutated for 20 hexose transporter genes: HXT1 through HXT17 (including, but not counting, HXT12, which is a pseudogene), GAL2, MAL11 (aka AGT1), MPH2, and MPH3.
UniProtKB:P47185 · SGD:S000003919PMID:12529516 Scholz-Starke J, et al. AtSTP6, a new pollen-specific H+-monosaccharide symporter from Arabidopsis. Plant Physiol. 2003 Jan;131(1):70-7.The A. thaliana protein AT3G05960.1 complements a homologous mutation in S. cerevisiae. A. thaliana STP6 complements a yeast strain mutated for 20 hexose transporter genes: HXT1 through HXT17 (including, but not counting, HXT12, which is a pseudogene), GAL2, MAL11 (aka AGT1), MPH2, and MPH3.
UniProtKB:P54854 · SGD:S000002404PMID:12529516 Scholz-Starke J, et al. AtSTP6, a new pollen-specific H+-monosaccharide symporter from Arabidopsis. Plant Physiol. 2003 Jan;131(1):70-7.The A. thaliana protein AT3G05960.1 complements a homologous mutation in S. cerevisiae. A. thaliana STP6 complements a yeast strain mutated for 20 hexose transporter genes: HXT1 through HXT17 (including, but not counting, HXT12, which is a pseudogene), GAL2, MAL11 (aka AGT1), MPH2, and MPH3.
UniProtKB:P42833 · SGD:S000005262PMID:12529516 Scholz-Starke J, et al. AtSTP6, a new pollen-specific H+-monosaccharide symporter from Arabidopsis. Plant Physiol. 2003 Jan;131(1):70-7.The A. thaliana protein AT3G05960.1 complements a homologous mutation in S. cerevisiae. A. thaliana STP6 complements a yeast strain mutated for 20 hexose transporter genes: HXT1 through HXT17 (including, but not counting, HXT12, which is a pseudogene), GAL2, MAL11 (aka AGT1), MPH2, and MPH3.
UniProtKB:P39924 · SGD:S000000795PMID:12529516 Scholz-Starke J, et al. AtSTP6, a new pollen-specific H+-monosaccharide symporter from Arabidopsis. Plant Physiol. 2003 Jan;131(1):70-7.The A. thaliana protein AT3G05960.1 complements a homologous mutation in S. cerevisiae. A. thaliana STP6 complements a yeast strain mutated for 20 hexose transporter genes: HXT1 through HXT17 (including, but not counting, HXT12, which is a pseudogene), GAL2, MAL11 (aka AGT1), MPH2, and MPH3.
UniProtKB:P54862 · SGD:S000005516PMID:12529516 Scholz-Starke J, et al. AtSTP6, a new pollen-specific H+-monosaccharide symporter from Arabidopsis. Plant Physiol. 2003 Jan;131(1):70-7.The A. thaliana protein AT3G05960.1 complements a homologous mutation in S. cerevisiae. A. thaliana STP6 complements a yeast strain mutated for 20 hexose transporter genes: HXT1 through HXT17 (including, but not counting, HXT12, which is a pseudogene), GAL2, MAL11 (aka AGT1), MPH2, and MPH3.
UniProtKB:P43581 · SGD:S000001883PMID:12529516 Scholz-Starke J, et al. AtSTP6, a new pollen-specific H+-monosaccharide symporter from Arabidopsis. Plant Physiol. 2003 Jan;131(1):70-7.The A. thaliana protein AT3G05960.1 complements a homologous mutation in S. cerevisiae. A. thaliana STP6 complements a yeast strain mutated for 20 hexose transporter genes: HXT1 through HXT17 (including, but not counting, HXT12, which is a pseudogene), GAL2, MAL11 (aka AGT1), MPH2, and MPH3.
UniProtKB:P40885 · SGD:S000003755PMID:12529516 Scholz-Starke J, et al. AtSTP6, a new pollen-specific H+-monosaccharide symporter from Arabidopsis. Plant Physiol. 2003 Jan;131(1):70-7.The A. thaliana protein AT3G05960.1 complements a homologous mutation in S. cerevisiae. A. thaliana STP6 complements a yeast strain mutated for 20 hexose transporter genes: HXT1 through HXT17 (including, but not counting, HXT12, which is a pseudogene), GAL2, MAL11 (aka AGT1), MPH2, and MPH3.
UniProtKB:P40886 · SGD:S000003750PMID:12529516 Scholz-Starke J, et al. AtSTP6, a new pollen-specific H+-monosaccharide symporter from Arabidopsis. Plant Physiol. 2003 Jan;131(1):70-7.The A. thaliana protein AT3G05960.1 complements a homologous mutation in S. cerevisiae. A. thaliana STP6 complements a yeast strain mutated for 20 hexose transporter genes: HXT1 through HXT17 (including, but not counting, HXT12, which is a pseudogene), GAL2, MAL11 (aka AGT1), MPH2, and MPH3.
UniProtKB:P23585 · SGD:S000004613PMID:12529516 Scholz-Starke J, et al. AtSTP6, a new pollen-specific H+-monosaccharide symporter from Arabidopsis. Plant Physiol. 2003 Jan;131(1):70-7.The A. thaliana protein AT3G05960.1 complements a homologous mutation in S. cerevisiae. A. thaliana STP6 complements a yeast strain mutated for 20 hexose transporter genes: HXT1 through HXT17 (including, but not counting, HXT12, which is a pseudogene), GAL2, MAL11 (aka AGT1), MPH2, and MPH3.
UniProtKB:P38695 · SGD:S000001138PMID:12529516 Scholz-Starke J, et al. AtSTP6, a new pollen-specific H+-monosaccharide symporter from Arabidopsis. Plant Physiol. 2003 Jan;131(1):70-7.The A. thaliana protein AT3G05960.1 complements a homologous mutation in S. cerevisiae. A. thaliana STP6 complements a yeast strain mutated for 20 hexose transporter genes: HXT1 through HXT17 (including, but not counting, HXT12, which is a pseudogene), GAL2, MAL11 (aka AGT1), MPH2, and MPH3.
UniProtKB:P32465 · SGD:S000001136PMID:12529516 Scholz-Starke J, et al. AtSTP6, a new pollen-specific H+-monosaccharide symporter from Arabidopsis. Plant Physiol. 2003 Jan;131(1):70-7.The A. thaliana protein AT3G05960.1 complements a homologous mutation in S. cerevisiae. A. thaliana STP6 complements a yeast strain mutated for 20 hexose transporter genes: HXT1 through HXT17 (including, but not counting, HXT12, which is a pseudogene), GAL2, MAL11 (aka AGT1), MPH2, and MPH3.
UniProtKB:P32467 · SGD:S000001134PMID:12529516 Scholz-Starke J, et al. AtSTP6, a new pollen-specific H+-monosaccharide symporter from Arabidopsis. Plant Physiol. 2003 Jan;131(1):70-7.The A. thaliana protein AT3G05960.1 complements a homologous mutation in S. cerevisiae. A. thaliana STP6 complements a yeast strain mutated for 20 hexose transporter genes: HXT1 through HXT17 (including, but not counting, HXT12, which is a pseudogene), GAL2, MAL11 (aka AGT1), MPH2, and MPH3.
UniProtKB:P32466 · SGD:S000002753PMID:12529516 Scholz-Starke J, et al. AtSTP6, a new pollen-specific H+-monosaccharide symporter from Arabidopsis. Plant Physiol. 2003 Jan;131(1):70-7.The A. thaliana protein AT3G05960.1 complements a homologous mutation in S. cerevisiae. A. thaliana STP6 complements a yeast strain mutated for 20 hexose transporter genes: HXT1 through HXT17 (including, but not counting, HXT12, which is a pseudogene), GAL2, MAL11 (aka AGT1), MPH2, and MPH3.
UniProtKB:P39003 · SGD:S000002751PMID:12529516 Scholz-Starke J, et al. AtSTP6, a new pollen-specific H+-monosaccharide symporter from Arabidopsis. Plant Physiol. 2003 Jan;131(1):70-7.The A. thaliana protein AT3G05960.1 complements a homologous mutation in S. cerevisiae. A. thaliana STP6 complements a yeast strain mutated for 20 hexose transporter genes: HXT1 through HXT17 (including, but not counting, HXT12, which is a pseudogene), GAL2, MAL11 (aka AGT1), MPH2, and MPH3.
UniProtKB:P39004 · SGD:S000002750PMID:12529516 Scholz-Starke J, et al. AtSTP6, a new pollen-specific H+-monosaccharide symporter from Arabidopsis. Plant Physiol. 2003 Jan;131(1):70-7.The A. thaliana protein AT3G05960.1 complements a homologous mutation in S. cerevisiae. A. thaliana STP6 complements a yeast strain mutated for 20 hexose transporter genes: HXT1 through HXT17 (including, but not counting, HXT12, which is a pseudogene), GAL2, MAL11 (aka AGT1), MPH2, and MPH3.
UniProtKB:P13181 · SGD:S000004071PMID:17064664 Liu Z, et al. Mammalian glucose permease GLUT1 facilitates transport of arsenic trioxide and methylarsonous acid. Biochem Biophys Res Commun. 2006 Dec 15;351(2):424-30.The R. norvegicus protein rGLUT1 complements a homologous mutation in S. cerevisiae. Rat GLUT1 restores the ability of a yeast mutant lacking 18 hexose transporters (HXT1 through 17 plus GAL2; this includes HXT12, which is a pseudogene.), FPS1, and ARR3 to import certain arsenic derivatives.
UniProtKB:P53631 · SGD:S000005355PMID:17064664 Liu Z, et al. Mammalian glucose permease GLUT1 facilitates transport of arsenic trioxide and methylarsonous acid. Biochem Biophys Res Commun. 2006 Dec 15;351(2):424-30.The R. norvegicus protein rGLUT1 complements a homologous mutation in S. cerevisiae. Rat GLUT1 restores the ability of a yeast mutant lacking 18 hexose transporters (HXT1 through 17 plus GAL2; this includes HXT12, which is a pseudogene.), FPS1, and ARR3 to import certain arsenic derivatives.
UniProtKB:P47185 · SGD:S000003919PMID:17064664 Liu Z, et al. Mammalian glucose permease GLUT1 facilitates transport of arsenic trioxide and methylarsonous acid. Biochem Biophys Res Commun. 2006 Dec 15;351(2):424-30.The R. norvegicus protein rGLUT1 complements a homologous mutation in S. cerevisiae. Rat GLUT1 restores the ability of a yeast mutant lacking 18 hexose transporters (HXT1 through 17 plus GAL2; this includes HXT12, which is a pseudogene.), FPS1, and ARR3 to import certain arsenic derivatives.
UniProtKB:P54854 · SGD:S000002404PMID:17064664 Liu Z, et al. Mammalian glucose permease GLUT1 facilitates transport of arsenic trioxide and methylarsonous acid. Biochem Biophys Res Commun. 2006 Dec 15;351(2):424-30.The R. norvegicus protein rGLUT1 complements a homologous mutation in S. cerevisiae. Rat GLUT1 restores the ability of a yeast mutant lacking 18 hexose transporters (HXT1 through 17 plus GAL2; this includes HXT12, which is a pseudogene.), FPS1, and ARR3 to import certain arsenic derivatives.
UniProtKB:P42833 · SGD:S000005262PMID:17064664 Liu Z, et al. Mammalian glucose permease GLUT1 facilitates transport of arsenic trioxide and methylarsonous acid. Biochem Biophys Res Commun. 2006 Dec 15;351(2):424-30.The R. norvegicus protein rGLUT1 complements a homologous mutation in S. cerevisiae. Rat GLUT1 restores the ability of a yeast mutant lacking 18 hexose transporters (HXT1 through 17 plus GAL2; this includes HXT12, which is a pseudogene.), FPS1, and ARR3 to import certain arsenic derivatives.
UniProtKB:P39924 · SGD:S000000795PMID:17064664 Liu Z, et al. Mammalian glucose permease GLUT1 facilitates transport of arsenic trioxide and methylarsonous acid. Biochem Biophys Res Commun. 2006 Dec 15;351(2):424-30.The R. norvegicus protein rGLUT1 complements a homologous mutation in S. cerevisiae. Rat GLUT1 restores the ability of a yeast mutant lacking 18 hexose transporters (HXT1 through 17 plus GAL2; this includes HXT12, which is a pseudogene.), FPS1, and ARR3 to import certain arsenic derivatives.
UniProtKB:P54862 · SGD:S000005516PMID:17064664 Liu Z, et al. Mammalian glucose permease GLUT1 facilitates transport of arsenic trioxide and methylarsonous acid. Biochem Biophys Res Commun. 2006 Dec 15;351(2):424-30.The R. norvegicus protein rGLUT1 complements a homologous mutation in S. cerevisiae. Rat GLUT1 restores the ability of a yeast mutant lacking 18 hexose transporters (HXT1 through 17 plus GAL2; this includes HXT12, which is a pseudogene.), FPS1, and ARR3 to import certain arsenic derivatives.
UniProtKB:P40886 · SGD:S000003750PMID:17064664 Liu Z, et al. Mammalian glucose permease GLUT1 facilitates transport of arsenic trioxide and methylarsonous acid. Biochem Biophys Res Commun. 2006 Dec 15;351(2):424-30.The R. norvegicus protein rGLUT1 complements a homologous mutation in S. cerevisiae. Rat GLUT1 restores the ability of a yeast mutant lacking 18 hexose transporters (HXT1 through 17 plus GAL2; this includes HXT12, which is a pseudogene.), FPS1, and ARR3 to import certain arsenic derivatives.
UniProtKB:P39003 · SGD:S000002751PMID:17064664 Liu Z, et al. Mammalian glucose permease GLUT1 facilitates transport of arsenic trioxide and methylarsonous acid. Biochem Biophys Res Commun. 2006 Dec 15;351(2):424-30.The R. norvegicus protein rGLUT1 complements a homologous mutation in S. cerevisiae. Rat GLUT1 restores the ability of a yeast mutant lacking 18 hexose transporters (HXT1 through 17 plus GAL2; this includes HXT12, which is a pseudogene.), FPS1, and ARR3 to import certain arsenic derivatives.
UniProtKB:P23585 · SGD:S000004613PMID:17064664 Liu Z, et al. Mammalian glucose permease GLUT1 facilitates transport of arsenic trioxide and methylarsonous acid. Biochem Biophys Res Commun. 2006 Dec 15;351(2):424-30.The R. norvegicus protein rGLUT1 complements a homologous mutation in S. cerevisiae. Rat GLUT1 restores the ability of a yeast mutant lacking 18 hexose transporters (HXT1 through 17 plus GAL2; this includes HXT12, which is a pseudogene.), FPS1, and ARR3 to import certain arsenic derivatives.
UniProtKB:P43581 · SGD:S000001883PMID:17064664 Liu Z, et al. Mammalian glucose permease GLUT1 facilitates transport of arsenic trioxide and methylarsonous acid. Biochem Biophys Res Commun. 2006 Dec 15;351(2):424-30.The R. norvegicus protein rGLUT1 complements a homologous mutation in S. cerevisiae. Rat GLUT1 restores the ability of a yeast mutant lacking 18 hexose transporters (HXT1 through 17 plus GAL2; this includes HXT12, which is a pseudogene.), FPS1, and ARR3 to import certain arsenic derivatives.
UniProtKB:P40885 · SGD:S000003755PMID:17064664 Liu Z, et al. Mammalian glucose permease GLUT1 facilitates transport of arsenic trioxide and methylarsonous acid. Biochem Biophys Res Commun. 2006 Dec 15;351(2):424-30.The R. norvegicus protein rGLUT1 complements a homologous mutation in S. cerevisiae. Rat GLUT1 restores the ability of a yeast mutant lacking 18 hexose transporters (HXT1 through 17 plus GAL2; this includes HXT12, which is a pseudogene.), FPS1, and ARR3 to import certain arsenic derivatives.
UniProtKB:P39004 · SGD:S000002750PMID:17064664 Liu Z, et al. Mammalian glucose permease GLUT1 facilitates transport of arsenic trioxide and methylarsonous acid. Biochem Biophys Res Commun. 2006 Dec 15;351(2):424-30.The R. norvegicus protein rGLUT1 complements a homologous mutation in S. cerevisiae. Rat GLUT1 restores the ability of a yeast mutant lacking 18 hexose transporters (HXT1 through 17 plus GAL2; this includes HXT12, which is a pseudogene.), FPS1, and ARR3 to import certain arsenic derivatives.
UniProtKB:P38695 · SGD:S000001138PMID:17064664 Liu Z, et al. Mammalian glucose permease GLUT1 facilitates transport of arsenic trioxide and methylarsonous acid. Biochem Biophys Res Commun. 2006 Dec 15;351(2):424-30.The R. norvegicus protein rGLUT1 complements a homologous mutation in S. cerevisiae. Rat GLUT1 restores the ability of a yeast mutant lacking 18 hexose transporters (HXT1 through 17 plus GAL2; this includes HXT12, which is a pseudogene.), FPS1, and ARR3 to import certain arsenic derivatives.
UniProtKB:P32467 · SGD:S000001134PMID:17064664 Liu Z, et al. Mammalian glucose permease GLUT1 facilitates transport of arsenic trioxide and methylarsonous acid. Biochem Biophys Res Commun. 2006 Dec 15;351(2):424-30.The R. norvegicus protein rGLUT1 complements a homologous mutation in S. cerevisiae. Rat GLUT1 restores the ability of a yeast mutant lacking 18 hexose transporters (HXT1 through 17 plus GAL2; this includes HXT12, which is a pseudogene.), FPS1, and ARR3 to import certain arsenic derivatives.
UniProtKB:P32466 · SGD:S000002753PMID:17064664 Liu Z, et al. Mammalian glucose permease GLUT1 facilitates transport of arsenic trioxide and methylarsonous acid. Biochem Biophys Res Commun. 2006 Dec 15;351(2):424-30.The R. norvegicus protein rGLUT1 complements a homologous mutation in S. cerevisiae. Rat GLUT1 restores the ability of a yeast mutant lacking 18 hexose transporters (HXT1 through 17 plus GAL2; this includes HXT12, which is a pseudogene.), FPS1, and ARR3 to import certain arsenic derivatives.
UniProtKB:P32465 · SGD:S000001136PMID:17064664 Liu Z, et al. Mammalian glucose permease GLUT1 facilitates transport of arsenic trioxide and methylarsonous acid. Biochem Biophys Res Commun. 2006 Dec 15;351(2):424-30.The R. norvegicus protein rGLUT1 complements a homologous mutation in S. cerevisiae. Rat GLUT1 restores the ability of a yeast mutant lacking 18 hexose transporters (HXT1 through 17 plus GAL2; this includes HXT12, which is a pseudogene.), FPS1, and ARR3 to import certain arsenic derivatives.
DescriptionSuffix
Sequences in this family.fasta
mafft aligned Fasta file.afasta
phyml newick file.newick
Notung rooted & rearranged newick file.newick.rooting.0.rearrange.0
Notung Homolog Table.newick.rooting.0.rearrange.0.homologs.csv
OMIM (4)
ENSEMBL:ENSG00000117394 · UniProtKB:P11166#208050 ARTERIAL TORTUOSITY SYNDROME; ATS;;ARTERIAL TORTUOSITY
ENSEMBL:ENSG00000163581 · UniProtKB:P11168#612126 DYSTONIA 18; DYT18;;PAROXYSMAL EXERTION-INDUCED DYSKINESIA; PED;;PAROXYSMAL EXERCISE-INDUCED DYSTONIAPAROXYSMAL EXERTION-INDUCED DYSKINESIA AND HEMOLYTIC ANEMIA, INCLUDED
#606777 GLUCOSE TRANSPORT DEFECT, BLOOD-BRAIN BARRIER;;GLUT1 DEFICIENCY SYNDROME
ENSEMBL:ENSG00000163581 · UniProtKB:P11168#227810 FANCONI-BICKEL SYNDROME; FBS;;HEPATORENAL GLYCOGENOSIS WITH RENAL FANCONI SYNDROME;;HEPATIC GLYCOGENOSIS WITH FANCONI NEPHROPATHY;;HEPATIC GLYCOGENOSIS WITH AMINO ACIDURIA AND GLUCOSURIA;;FANCONI SYNDROME WITH INTESTINAL MALABSORPTION AND GALACTOSE INTOLERANCE;;PSEUDO-PHLORIZIN DIABETES;;GLYCOGENOSIS, FANCONI TYPE;;GLYCOGEN STORAGE DISEASE XI
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