PlantCAZyme

Basic Information
Species	Malus domestica
Cazyme ID	MDP0000211018
Family	GH38
Protein Properties	Length: 1829 Molecular Weight: 203363 Isoelectric Point: 6.7981
Chromosome	Chromosome/Scaffold: 01843463 Start: 8094 End: 20744
Description	Glycosyl hydrolase family 38 protein
View CDS

External Links
NCBI Taxonomy
CAZyDB

Signature Domain Download full data set without filtering

Family	Start	End	Evalue
GH38	39	219	0
NVHLVPHTHDDVGWLKTVDQYYVGSNNSIQAFFQRWWRDQSDAVQSIVKQLVTSGQLEFINGGMCMHDEAATHYIDMIDQTTLGHRFIKKEFDMTPRIGW QIDPFGHSAVQAYLLGAEAGFDSLFFGRIDYQDRAKRKNDKSLEFIWQGSKSLGSSAQIFSGAFPEAYEPPSGFYFEVNDD

Full Sequence
Protein Sequence Length: 1829 Download
MATTWSLLCM LTLVVGFLVA DSKFIAYNTS QGIVPGKINV HLVPHTHDDV GWLKTVDQYY 60 VGSNNSIQAF FQRWWRDQSD AVQSIVKQLV TSGQLEFING GMCMHDEAAT HYIDMIDQTT 120 LGHRFIKKEF DMTPRIGWQI DPFGHSAVQA YLLGAEAGFD SLFFGRIDYQ DRAKRKNDKS 180 LEFIWQGSKS LGSSAQIFSG AFPEAYEPPS GFYFEVNDDS PIVQDDITLF DYNVHDRVND 240 FVATAVSQIS CISMHTHGSD KWTNSFTMST CLTPFVPLNI IITGTDDIGH LCLCXRGQIG 300 RFNLSVVSVL SKTEVCHHTS YADRANAYWT GYFTTFLLSY IYVSLDKKAA RQLEFFIGRT 360 DSGPNTDSLA DALAIAQHHD AVTGTEKQHV ANDYAKRLAI GYTEAEQVVA TSLAHLVEXA 420 SYTGSVNPTT KFQQCPLLNI SYCPASEMNF SEAKQLIVMV YNSLGWKRDD VIRIPIINED 480 VTVHDSEGRE IESQLLPLDD AHVGLRNYYA KAYLGQTPTK TPNYWLAFTV SVPPLGFNTY 540 TISLLGKGAG STRSSVQTFQ SREESTIEVG QGNVKLTFST NQGKMTKYVN RRSLVEELVE 600 QSYGFYNGYN GSDDKAPLIP QASLTVVRGP VIDEVHQQIN AWIYQVTRIH KEKEHVEFEF 660 IVGPLPTDDG IGKEVVTQLA TTMATNKTFY TDSNGRDFIE RIXDYRTDWD LKVHQPIAGN 720 YYPINLGIYM QDNSTEFSVL VDRSIGGSST VDGQIELMLH RHSIQIKVMI GISLFLLPHR 780 RLLLDDSRGV AEALNETVCI DNVCSGLRIQ GKFYFRIDPL GEGAKWRRTF GQEIYSPLLL 840 AFSEQDGDNW KNSHVTTFSG VGSSYSLPNN VALITLQIGE DRDLSVMANV ELKQLFPRKK 900 IGKLTEMNLS ANQERTXMEK KRLNWKVEEG SSSEAKVARG GTVDPAKLVV ELAPMEIRTF 960 LVDCYVTFET PAYRLILMAS KKWKNKRLII LWCLNPLWFN YISSTFIPSS RQGCTGAHER 1020 XLCTISIKST KRKGKCLTGE PISEKNRVFG RIFMSILPNQ DQGSISSSTS SAPSINPNSQ 1080 HGHRHHHVSL SQSQSQSLSP PDPSRQILQF GSLRISDSQS SSSATSSGLS PSAPAAEDSG 1140 GSSQQVTELG IPWGNQALPN NLHHTHSQCH SGGGGRGVGS PWSRGKRSGT DGSSSTQHSM 1200 GSVASHGNST HQTGKKTQLM NGNHLLNFYY DPISRPQHRA APPSSRRQHK RKPYNKDLFL 1260 QANYKFVVLD SVNYSAEAMD PDKVLQWEDI ICVRYSTPTV VQCPICLEYP LCPQITSCGH 1320 IFCFPCILQY LLMGKEDHKG DCWKSCPLCF VMISPKDLYT LFVENVKQYC VGDTIEFMLI 1380 SRQKDSFTLS HKSKQEKGAV GGCDDESYDP FSKXTFTSDV DLSVRKAISE LDGWLVRAES 1440 GLVDDLEKLP YVCAAMEQLE QRKKYWNEHG ASNSNKSCKY NNHNTGSILS TEKATIGNNE 1500 ASTFGQANPS NEVYDGNVCS DXISVEKSDD GTCSDQSVDA AESLEGQENV XSSSYDESNS 1560 ARGDSHDSGS VKEKESYNFY QAADGQHIII HPLNMKCLLH HYGSHDMLPH RVSGKILQLE 1620 TVTQTEAMRR RYRYLSHFSL TTIXQFCEID LSEVLSPDAL SPFMEDIKKR EQKRKQLARK 1680 EQKEKMKAES TMAYPIPIVA GYGQSLHEGS PTFSMDDFEA LGSXTVTSSS PPVVGERKLF 1740 SSVTKLGFAA AHDSPALKLE GSNSLNGNDA GRVFPKTNGT QNAGVASFAN IIARAKPGEN 1800 MDPPXINDSG KKGKKQSRVL LSTASGRRY

Full Sequence

Protein Sequence Length: 1829 Download

MATTWSLLCM LTLVVGFLVA DSKFIAYNTS QGIVPGKINV HLVPHTHDDV GWLKTVDQYY    60
VGSNNSIQAF FQRWWRDQSD AVQSIVKQLV TSGQLEFING GMCMHDEAAT HYIDMIDQTT    120
LGHRFIKKEF DMTPRIGWQI DPFGHSAVQA YLLGAEAGFD SLFFGRIDYQ DRAKRKNDKS    180
LEFIWQGSKS LGSSAQIFSG AFPEAYEPPS GFYFEVNDDS PIVQDDITLF DYNVHDRVND    240
FVATAVSQIS CISMHTHGSD KWTNSFTMST CLTPFVPLNI IITGTDDIGH LCLCXRGQIG    300
RFNLSVVSVL SKTEVCHHTS YADRANAYWT GYFTTFLLSY IYVSLDKKAA RQLEFFIGRT    360
DSGPNTDSLA DALAIAQHHD AVTGTEKQHV ANDYAKRLAI GYTEAEQVVA TSLAHLVEXA    420
SYTGSVNPTT KFQQCPLLNI SYCPASEMNF SEAKQLIVMV YNSLGWKRDD VIRIPIINED    480
VTVHDSEGRE IESQLLPLDD AHVGLRNYYA KAYLGQTPTK TPNYWLAFTV SVPPLGFNTY    540
TISLLGKGAG STRSSVQTFQ SREESTIEVG QGNVKLTFST NQGKMTKYVN RRSLVEELVE    600
QSYGFYNGYN GSDDKAPLIP QASLTVVRGP VIDEVHQQIN AWIYQVTRIH KEKEHVEFEF    660
IVGPLPTDDG IGKEVVTQLA TTMATNKTFY TDSNGRDFIE RIXDYRTDWD LKVHQPIAGN    720
YYPINLGIYM QDNSTEFSVL VDRSIGGSST VDGQIELMLH RHSIQIKVMI GISLFLLPHR    780
RLLLDDSRGV AEALNETVCI DNVCSGLRIQ GKFYFRIDPL GEGAKWRRTF GQEIYSPLLL    840
AFSEQDGDNW KNSHVTTFSG VGSSYSLPNN VALITLQIGE DRDLSVMANV ELKQLFPRKK    900
IGKLTEMNLS ANQERTXMEK KRLNWKVEEG SSSEAKVARG GTVDPAKLVV ELAPMEIRTF    960
LVDCYVTFET PAYRLILMAS KKWKNKRLII LWCLNPLWFN YISSTFIPSS RQGCTGAHER    1020
XLCTISIKST KRKGKCLTGE PISEKNRVFG RIFMSILPNQ DQGSISSSTS SAPSINPNSQ    1080
HGHRHHHVSL SQSQSQSLSP PDPSRQILQF GSLRISDSQS SSSATSSGLS PSAPAAEDSG    1140
GSSQQVTELG IPWGNQALPN NLHHTHSQCH SGGGGRGVGS PWSRGKRSGT DGSSSTQHSM    1200
GSVASHGNST HQTGKKTQLM NGNHLLNFYY DPISRPQHRA APPSSRRQHK RKPYNKDLFL    1260
QANYKFVVLD SVNYSAEAMD PDKVLQWEDI ICVRYSTPTV VQCPICLEYP LCPQITSCGH    1320
IFCFPCILQY LLMGKEDHKG DCWKSCPLCF VMISPKDLYT LFVENVKQYC VGDTIEFMLI    1380
SRQKDSFTLS HKSKQEKGAV GGCDDESYDP FSKXTFTSDV DLSVRKAISE LDGWLVRAES    1440
GLVDDLEKLP YVCAAMEQLE QRKKYWNEHG ASNSNKSCKY NNHNTGSILS TEKATIGNNE    1500
ASTFGQANPS NEVYDGNVCS DXISVEKSDD GTCSDQSVDA AESLEGQENV XSSSYDESNS    1560
ARGDSHDSGS VKEKESYNFY QAADGQHIII HPLNMKCLLH HYGSHDMLPH RVSGKILQLE    1620
TVTQTEAMRR RYRYLSHFSL TTIXQFCEID LSEVLSPDAL SPFMEDIKKR EQKRKQLARK    1680
EQKEKMKAES TMAYPIPIVA GYGQSLHEGS PTFSMDDFEA LGSXTVTSSS PPVVGERKLF    1740
SSVTKLGFAA AHDSPALKLE GSNSLNGNDA GRVFPKTNGT QNAGVASFAN IIARAKPGEN    1800
MDPPXINDSG KKGKKQSRVL LSTASGRRY 

Functional Domains Download unfiltered results here

Cdd ID	Domain	E-Value	Start	End	Length	Domain Description
cd10809	GH38N_AMII_GMII_SfManIII_like	2.0e-46	37	203	190	+ N-terminal catalytic domain of Golgi alpha-mannosidase II, Spodoptera frugiperda Sf9 alpha-mannosidase III, and similar proteins; glycoside hydrolase family 38 (GH38). This subfamily is represented by Golgi alpha-mannosidase II (GMII, also known as mannosyl-oligosaccharide 1,3- 1,6-alpha mannosidase, EC 3.2.1.114, Man2A1), a monomeric, membrane-anchored class II alpha-mannosidase existing in the Golgi apparatus of eukaryotes. GMII plays a key role in the N-glycosylation pathway. It catalyzes the hydrolysis of the terminal both alpha-1,3-linked and alpha-1,6-linked mannoses from the high-mannose oligosaccharide GlcNAc(Man)5(GlcNAc)2 to yield GlcNAc(Man)3(GlcNAc)2(GlcNAc, N-acetylglucosmine), which is the committed step of complex N-glycan synthesis. GMII is activated by zinc or cobalt ions and is strongly inhibited by swainsonine. Inhibition of GMII provides a route to block cancer-induced changes in cell surface oligosaccharide structures. GMII has a pH optimum of 5.5-6.0, which is intermediate between those of acidic (lysosomal alpha-mannosidase) and neutral (ER/cytosolic alpha-mannosidase) enzymes. GMII is a retaining glycosyl hydrolase of family GH38 that employs a two-step mechanism involving the formation of a covalent glycosyl enzyme complex; two carboxylic acids positioned within the active site act in concert: one as a catalytic nucleophile and the other as a general acid/base catalyst. This subfamily also includes human alpha-mannosidase 2x (MX, also known as mannosyl-oligosaccharide 1,3- 1,6-alpha mannosidase, EC 3.2.1.114, Man2A2). MX is enzymatically and functionally very similar to GMII, and is thought to also function in the N-glycosylation pathway. Also found in this subfamily is class II alpha-mannosidase encoded by Spodoptera frugiperda Sf9 cell. This alpha-mannosidase is an integral membrane glycoprotein localized in the Golgi apparatus. It shows high sequence homology with mammalian Golgi alpha-mannosidase II(GMII). It can hydrolyze p-nitrophenyl alpha-D-mannopyranoside (pNP-alpha-Man), and it is inhibited by swainsonine. However, the Sf9 enzyme is stimulated by cobalt and can hydrolyze (Man)5(GlcNAc)2 to (Man)3(GlcNAc)2, but it cannot hydrolyze GlcNAc(Man)5(GlcNAc)2, which is distinct from that of GMII. Thus, this enzyme has been designated as Sf9 alpha-mannosidase III (SfManIII). It probably functions in an alternate N-glycan processing pathway in Sf9 cells.
pfam01074	Glyco_hydro_38	3.0e-64	39	218	199	+ Glycosyl hydrolases family 38 N-terminal domain. Glycosyl hydrolases are key enzymes of carbohydrate metabolism.
cd00451	GH38N_AMII_euk	1.0e-76	38	250	233	+ N-terminal catalytic domain of eukaryotic class II alpha-mannosidases; glycoside hydrolase family 38 (GH38). The family corresponds to a group of eukaryotic class II alpha-mannosidases (AlphaMII), which contain Golgi alpha-mannosidases II (GMII), the major broad specificity lysosomal alpha-mannosidases (LAM, MAN2B1), the noval core-specific lysosomal alpha 1,6-mannosidases (Epman, MAN2B2), and similar proteins. GMII catalyzes the hydrolysis of the terminal both alpha-1,3-linked and alpha-1,6-linked mannoses from the high-mannose oligosaccharide GlcNAc(Man)5(GlcNAc)2 to yield GlcNAc(Man)3(GlcNAc)2 (GlcNAc, N-acetylglucosmine), which is the committed step of complex N-glycan synthesis. LAM is a broad specificity exoglycosidase hydrolyzing all known alpha 1,2-, alpha 1,3-, and alpha 1,6-mannosidic linkages from numerous high mannose type oligosaccharides. Different from LAM, Epman can efficiently cleave only the alpha 1,6-linked mannose residue from (Man)3GlcNAc, but not (Man)3(GlcNAc)2 or other larger high mannose oligosaccharides, in the core of N-linked glycans. Members in this family are retaining glycosyl hydrolases of family GH38 that employs a two-step mechanism involving the formation of a covalent glycosyl enzyme complex. Two carboxylic acids positioned within the active site act in concert: one as a catalytic nucleophile and the other as a general acid/base catalyst.
cd10810	GH38N_AMII_LAM_like	9.0e-125	38	265	267	+ N-terminal catalytic domain of lysosomal alpha-mannosidase and similar proteins; glycoside hydrolase family 38 (GH38). The subfamily is represented by lysosomal alpha-mannosidase (LAM, Man2B1, EC 3.2.1.114), which is a broad specificity exoglycosidase hydrolyzing all known alpha 1,2-, alpha 1,3-, and alpha 1,6-mannosidic linkages from numerous high mannose type oligosaccharides. LAM is expressed in all tissues and in many species. In mammals, the absence of LAM can cause the autosomal recessive disease alpha-mannosidosis. LAM has an acidic pH optimum at 4.0-4.5. It is stimulated by zinc ion and is inhibited by cobalt ion and plant alkaloids, such as swainsonine (SW). LAM catalyzes hydrolysis by a double displacement mechanism in which a glycosyl-enzyme intermediate is formed and hydrolyzed via oxacarbenium ion-like transition states. A carboxylic acid in the active site acts as the catalytic nucleophile in the formation of the covalent intermediate while a second carboxylic acid acts as a general acid catalyst. The same residue is thought to assist in the hydrolysis (deglycosylation) step, this time acting as a general base.

Gene Ontology
GO Term	Description
GO:0004553	hydrolase activity, hydrolyzing O-glycosyl compounds
GO:0004559	alpha-mannosidase activity
GO:0005975	carbohydrate metabolic process
GO:0006013	mannose metabolic process
GO:0008270	zinc ion binding

Annotations - NR Download unfiltered results here
Source	Hit ID	E-Value	Query Start	Query End	Hit Start	Hit End	Description
EMBL	CBI21276.1	0	8	964	5	1007	unnamed protein product [Vitis vinifera]
RefSeq	XP_002276092.1	0	8	964	5	1007	PREDICTED: hypothetical protein [Vitis vinifera]
RefSeq	XP_002318770.1	0	9	969	7	1012	predicted protein [Populus trichocarpa]
RefSeq	XP_002321075.1	0	23	963	24	998	predicted protein [Populus trichocarpa]
RefSeq	XP_002512840.1	0	7	963	7	966	lysosomal alpha-mannosidase, putative [Ricinus communis]

Annotations - PDB Download unfiltered results here
Source	Hit ID	E-Value	Query Start	Query End	Hit Start	Hit End	Description
PDB	1o7d_A	0	26	260	2	270	C Chain C, The Structure Of The Bovine Lysosomal A-Mannosidase Suggests A Novel Mechanism For Low Ph Activation
PDB	1o7d_D	2.8026e-45	574	818	10	245	C Chain C, The Structure Of The Bovine Lysosomal A-Mannosidase Suggests A Novel Mechanism For Low Ph Activation
PDB	1ps3_A	2e-23	37	203	80	265	A Chain A, Golgi Alpha-mannosidase Ii In Complex With Kifunensine
PDB	1ps3_A	2e-21	320	794	406	882	A Chain A, Golgi Alpha-mannosidase Ii In Complex With Kifunensine
PDB	3bup_A	2e-23	37	203	80	265	A Chain A, Golgi Alpha-mannosidase Ii In Complex With Kifunensine

EST Download unfiltered results here

Hit	Length	Start	End	EValue
HO780062	603	321	886	0
FG227394	498	159	630	0
GO510671	228	354	580	0
HO780062	47	218	260	0.0003
HO780062	24	379	402	0.001

Orthologous Group
Species	ID
Aquilegia coerulea	Aquca_002_00345.1.265.483	Aquca_002_00345.1.265.483	Aquca_006_00230.1	Aquca_006_00257.5	Aquca_006_00257.9
	Aquca_006_00257.8	Aquca_006_00257.7	Aquca_006_00257.6	Aquca_006_00257.4	Aquca_006_00257.3
	Aquca_006_00257.2	Aquca_006_00257.1	Aquca_043_00016.7	Aquca_043_00016.8	Aquca_043_00016.6
	Aquca_043_00016.5	Aquca_043_00016.4	Aquca_043_00016.3	Aquca_043_00016.2	Aquca_043_00016.1
	Aquca_043_00019.2	Aquca_043_00019.1	Aquca_043_00018.1	Aquca_056_00071.1	Aquca_002_00345.1.162.261
	Aquca_002_00345.1.162.261
Arabidopsis lyrata	488339	488225	497001	484445
Arabidopsis thaliana	AT5G14950.1	AT5G66150.1	AT5G13980.3	AT5G13980.2	AT5G13980.1
	AT3G26720.2	AT3G26720.1
Brachypodium distachyon	Bradi1g44550.1	Bradi3g21117.1	Bradi4g17327.1	Bradi4g17317.1
Brassica rapa	Bra023496	Bra006275	Bra037183	Bra006227	Bra025225
Carica papaya	evm.model.supercontig_6.275	evm.model.supercontig_70.70	evm.model.supercontig_2646.1	evm.TU.contig_36966.1	evm.model.supercontig_70.69
Capsella rubella	Carubv10000075m	Carubv10002909m	Carubv10027738m	Carubv10016625m
Citrus clementina	Ciclev10014083m	Ciclev10017635m	Ciclev10024829m	Ciclev10024800m	Ciclev10030627m
	Ciclev10014156m	Ciclev10014160m	Ciclev10014123m
Citrus sinensis	orange1.1g002547m	orange1.1g002518m	orange1.1g002134m	orange1.1g001061m	orange1.1g015028m
	orange1.1g002366m	orange1.1g004057m	orange1.1g001910m	orange1.1g001850m	orange1.1g002764m
	orange1.1g002170m	orange1.1g002162m	orange1.1g002383m	orange1.1g001963m	orange1.1g001813m
	orange1.1g002938m	orange1.1g002542m	orange1.1g002064m	orange1.1g002056m	orange1.1g002046m
	orange1.1g002036m
Cucumis sativus	Cucsa.339310.1	Cucsa.043720.1	Cucsa.188400.2	Cucsa.188400.1
Eucalyptus grandis	Eucgr.J02166.1	Eucgr.L01536.1	Eucgr.J02456.1	Eucgr.K02195.1	Eucgr.J02455.3
	Eucgr.J02455.2	Eucgr.J02455.1	Eucgr.I01600.1	Eucgr.G01931.1	Eucgr.J02460.1
	Eucgr.J02454.1	Eucgr.L01537.1	Eucgr.J02457.1	Eucgr.J02459.2	Eucgr.J02459.1
Fragaria vesca	mrna28330.1-v1.0-hybrid	mrna14585.1-v1.0-hybrid	mrna01394.1-v1.0-hybrid.37.348	mrna01394.1-v1.0-hybrid.37.348	mrna06416.1-v1.0-hybrid.39.351
	mrna06416.1-v1.0-hybrid.39.351	mrna14589.1-v1.0-hybrid.71.344
Glycine max	Glyma13g04761.3	Glyma13g04761.2	Glyma19g01890.1	Glyma13g04761.1	Glyma02g05240.2
	Glyma02g05240.1	Glyma16g23600.1	Glyma01g36980.1	Glyma06g17270.1	Glyma04g37790.1
	Glyma19g27660.2	Glyma19g27660.1	Glyma16g05240.2	Glyma16g05240.1
Gossypium raimondii	Gorai.001G258600.2	Gorai.001G258600.1	Gorai.006G027500.1	Gorai.003G008600.2	Gorai.003G008600.1
	Gorai.006G000300.3	Gorai.006G000300.2	Gorai.006G000300.1	Gorai.012G082700.6	Gorai.012G082700.9
	Gorai.012G082700.8	Gorai.012G082700.7	Gorai.012G082700.5	Gorai.012G082700.4	Gorai.012G082700.3
	Gorai.012G082700.2	Gorai.012G082700.10	Gorai.012G082700.1	Gorai.003G116600.2	Gorai.003G116600.1
Linum usitatissimum	Lus10014507	Lus10015337.248.571	Lus10015337.248.571	Lus10032179	Lus10039457
	Lus10012578	Lus10035111	Lus10012577	Lus10036074	Lus10025960
	Lus10014259	Lus10041516	Lus10015337.158.248	Lus10015337.158.248
Malus domestica	MDP0000888429	MDP0000267909	MDP0000250936	MDP0000139458	MDP0000274501
	MDP0000274500	MDP0000409920	MDP0000163211	MDP0000657082
Manihot esculenta	cassava4.1_000571m	cassava4.1_001602m	cassava4.1_000993m	cassava4.1_000971m	cassava4.1_000869m
	cassava4.1_001123m	cassava4.1_001106m
Medicago truncatula	Medtr4g071680.1	Medtr6g008850.1	Medtr8g075330.1	Medtr7g084040.1	Medtr3g098650.2
	Medtr3g098650.1	Medtr7g084030.1
Mimulus guttatus	mgv1a000435m	mgv1a000658m	mgv1a000852m	mgv1a000690m
Oryza sativa	LOC_Os06g13650.2	LOC_Os06g13650.1	LOC_Os06g13650.3	LOC_Os11g32260.2	LOC_Os11g32260.1
	LOC_Os10g05069.2	LOC_Os10g05069.1	LOC_Os10g05069.3
Panicum virgatum	Pavirv00027286m	Pavirv00014532m	Pavirv00024149m	Pavirv00025946m	Pavirv00065120m
Physcomitrella patens	Pp1s10_34V6.1	Pp1s77_136V6.1	Pp1s129_147V6.1
Phaseolus vulgaris	Phvul.004G022500.1	Phvul.003G264400.1	Phvul.001G084400.1	Phvul.002G107300.1	Phvul.001G084700.1
	Phvul.009G161600.1
Picea abies	MA_10434251g0010	MA_879613g0010	MA_4107059g0010
Populus trichocarpa	Potri.017G073900.2	Potri.017G073900.1	Potri.001G350400.2	Potri.001G350400.1	Potri.014G143600.1
	Potri.014G143600.2	Potri.007G056300.1	Potri.002G238200.2	Potri.002G238200.1	Potri.012G106500.2
	Potri.012G106500.1
Prunus persica	ppa000458m	ppa021513m	ppa000707m	ppa000755m	ppa000717m
Ricinus communis	29822.m003420	29868.m000341	30131.m006982	30131.m006981	30147.m014412
Setaria italica	Si005719m	Si038673m	Si025964m	Si034056m	Si025881m
Selaginella moellendorffii	104910	154366	266756	410022	178241
Sorghum bicolor	Sb10g008770.1	Sb01g026405.1	Sb05g019600.1	Sb01g026390.1
Thellungiella halophila	Thhalv10012487m	Thhalv10012612m	Thhalv10012546m	Thhalv10003575m	Thhalv10003577m
Vitis vinifera	GSVIVT01032586001	GSVIVT01018752001	GSVIVT01032988001	GSVIVT01008340001	GSVIVT01008642001
	GSVIVT01032989001

Signal Peptide

Cleavage Site
16

CAZyme Information