9firm-PHL7

Thermoanaerobacterales bacterium Polyester Hydrolase Leipzig 7 (PHL-7) PHL7 PES-H1

Comment

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.

Relationship

Family : Polyesterase-lipase-cutinase

Block : L

Position in NCBI Life Tree : Thermoanaerobacterales bacterium

(Below N is a link to NCBI taxonomic web page and E link to ESTHER at designed phylum.)

> cellular organisms N E > Bacteria N E > Terrabacteria group N E > Firmicutes N E > Clostridia N E > Thermoanaerobacterales N E > unclassified Thermoanaerobacterales N E > Thermoanaerobacterales bacterium N E

Database

No Interpro

No Pfam

No UniProt

No PIRSF

No SUPERFAM

Sequence

Peptide

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

References (5)

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
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
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
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
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
PubMedID: 35966606
Gene_locus related to this paper: 9firm-PHL7