Thermoanaerobacterales bacterium Polyester Hydrolase Leipzig 7 (PHL-7) PHL7 PES-H1
PHL7 PES-H1 PESH-2 are very similar proteins PHL7 and PES-H1 are identical and PES-H2 differs in only four residues (A\/E1, L\/F209, D\/N232, and S\/A254), only the L\/F209 is close to the catalytic triad. These proteins are not separated here and considered as mutants of the same entry.
Family : Polyesterase-lipase-cutinase
Block : L
Position in NCBI Life Tree : Thermoanaerobacterales bacterium
MRHMSTSIAR VRTRLGALLA GVIVAGSTVI GAAPAGAQEN PYERGPDPTE SSIEAVRGPF AVAQTTVSRL QADGFGGGTI YYPTDTSQGT FGAVAISPGF TAGQESIAWL GPRIASQGFV VITIDTITRL DQPDSRGRQL QAALDHLRTN SVVRNRIDPN RMAVMGHSMG GGGALSAAAN NTSLEAAIPL QGWHTRKNWS SVRTPTLVVG AQLDTIAPVS SHSEAFYNSL PSDLDKAYME LRGASHLVSN TPDTTTAKYS IAWLKRFVDD DLRYEQFLCP APDDFAISEY RSTCPHSGSG GGTTPPPEDD CPWWAWWC
Title : Unveiling PET Hydrolase Surface Dynamics through Fluorescence Microscopy - Rennison_2024_Chembiochem__e202300661 |
Author(s) : Rennison AP , Nousi A , Westh P , Marie R , Moller MS |
Ref : Chembiochem , :e202300661 , 2024 |
Abstract : Rennison_2024_Chembiochem__e202300661 |
ESTHER : Rennison_2024_Chembiochem__e202300661 |
PubMedSearch : Rennison_2024_Chembiochem__e202300661 |
PubMedID: 38224131 |
Gene_locus related to this paper: 9firm-PHL7 , 9bact-g9by57 |
Title : Structure and function of the metagenomic plastic-degrading polyester hydrolase PHL7 bound to its product - Richter_2023_Nat.Commun_14_1905 |
Author(s) : Richter PK , Blazquez-Sanchez P , Zhao Z , Engelberger F , Wiebeler C , Kunze G , Frank R , Krinke D , Frezzotti E , Lihanova Y , Falkenstein P , Matysik J , Zimmermann W , Strater N , Sonnendecker C |
Ref : Nat Commun , 14 :1905 , 2023 |
Abstract : Richter_2023_Nat.Commun_14_1905 |
ESTHER : Richter_2023_Nat.Commun_14_1905 |
PubMedSearch : Richter_2023_Nat.Commun_14_1905 |
PubMedID: 37019924 |
Gene_locus related to this paper: 9firm-PHL7 |
Title : Low Carbon Footprint Recycling of Post-Consumer PET Plastic with a Metagenomic Polyester Hydrolase - Sonnendecker_2022_ChemSusChem_15_e202101062 |
Author(s) : Sonnendecker C , Oeser J , Richter PK , Hille P , Zhao Z , Fischer C , Lippold H , Blazquez-Sanchez P , Engelberger F , Ramirez-Sarmiento CA , Oeser T , Lihanova Y , Frank R , Jahnke HG , Billig S , Abel B , Strater N , Matysik J , Zimmermann W |
Ref : ChemSusChem , 15 :e202101062 , 2022 |
Abstract : Sonnendecker_2022_ChemSusChem_15_e202101062 |
ESTHER : Sonnendecker_2022_ChemSusChem_15_e202101062 |
PubMedSearch : Sonnendecker_2022_ChemSusChem_15_e202101062 |
PubMedID: 34129279 |
Gene_locus related to this paper: 9firm-PHL7 |
Title : Real-Time Noninvasive Analysis of Biocatalytic PET Degradation - Frank_2022_ACS.Catal_12_25 |
Author(s) : Frank R , Krinke D , Sonnendecker C , Zimmermann W , Jahnke HG |
Ref : ACS Catal , 12 :25 , 2022 |
Abstract : Frank_2022_ACS.Catal_12_25 |
ESTHER : Frank_2022_ACS.Catal_12_25 |
PubMedSearch : Frank_2022_ACS.Catal_12_25 |
PubMedID: |
Gene_locus related to this paper: 9firm-PHL7 , 9bact-g9by57 |
Title : Multiple Substrate Binding Mode-Guided Engineering of a Thermophilic PET Hydrolase - Pfaff_2022_ACS.Catalysis_12_9790 |
Author(s) : Pfaff L , Gao J , Li Z , Jackering A , Weber G , Mican J , Chen Y , Dong W , Han X , Feiler CG , Ao YF , Badenhorst CPS , Bednar D , Palm GJ , Lammers M , Damborsky J , Strodel B , Liu W , Bornscheuer UT , Wei R |
Ref : ACS Catal , 12 :9790 , 2022 |
Abstract : Pfaff_2022_ACS.Catalysis_12_9790 |
ESTHER : Pfaff_2022_ACS.Catalysis_12_9790 |
PubMedSearch : Pfaff_2022_ACS.Catalysis_12_9790 |
PubMedID: 35966606 |
Gene_locus related to this paper: 9firm-PHL7 |