Hypoxylon sp. EC38. Carboxylic ester hydrolase
MSVVILNVLC LGLTLCYGFP SEARLSRPSA VVNNTLVLGK TSRLPSAPHV TVDQFLGIPY AKSPPRRFEP PEDEYSFASP WDASYYRPSC FQYFANNEFE AIFNDPPLPE SEDCLYLNIF TPSIASSEAL PVLFWIHGGS FALGSARIPE YDGSSFAANQ GIVVVTINYR TNVFGFPSST DIPFERRNIG LLDQRKALSW VNNNIRAFGG DPSKITIFGE SAGAWSVKQL LIHPPSPPQF RAAILQSQAF GPRTDNQESW NTLARALGCT DLNSSSSTLG CVTKAPAQSV RAVLHDQGLG FTPVVDNATN GPMFRDAVEE NLVAQLPILI GTNANEGSIL ASVMPPSEVL LGGIFANDTD AMRLARSAYP INATDMELRS LITTDYTYTC TTSAIAHAAA SNRQNVWRYY FNASFSNNQP IPRAGAFHTS EIPLVFGTYR RDNKTTLEQV WLSESMQKAW GNFAKDPEVG PGWPAIGTSE NDLRVFQVDN PDCRLNFNEK LVDGICTYYN AQLWENGF
Title : Characterization of four endophytic fungi as potential consolidated bioprocessing hosts for conversion of lignocellulose into advanced biofuels - Wu_2017_Appl.Microbiol.Biotechnol_101_2603 |
Author(s) : Wu W , Davis RW , Tran-Gyamfi MB , Kuo A , LaButti K , Mihaltcheva S , Hundley H , Chovatia M , Lindquist E , Barry K , Grigoriev IV , Henrissat B , Gladden JM |
Ref : Applied Microbiology & Biotechnology , 101 :2603 , 2017 |
Abstract : Wu_2017_Appl.Microbiol.Biotechnol_101_2603 |
ESTHER : Wu_2017_Appl.Microbiol.Biotechnol_101_2603 |
PubMedSearch : Wu_2017_Appl.Microbiol.Biotechnol_101_2603 |
PubMedID: 28078400 |
Gene_locus related to this paper: 9pezi-a0a1y2u1s8 , 9pezi-a0a1y2x077 , 9pezi-a0a1y2vv92 , 9pezi-a0a1y2txs8 , 9pezi-a0a1y2wzb7 , 9pezi-a0a1y2ufj7 , 9pezi-a0a1y2vvc9 , 9pezi-a0a1y2w3w4 |