Report for Jones DD

Title : Structure-Guided Engineering of a Family IV Cold-Adapted Esterase Expands Its Substrate Range - Noby_2022_Int.J.Mol.Sci_23_4703

Author(s) : Noby N , Johnson RL , Tyzack JD , Embaby AM , Saeed H , Hussein A , Khattab SN , Rizkallah PJ , Jones DD

Ref : Int J Mol Sci , 23 : , 2022

Abstract : Noby_2022_Int.J.Mol.Sci_23_4703

ESTHER : Noby_2022_Int.J.Mol.Sci_23_4703

PubMedSearch : Noby_2022_Int.J.Mol.Sci_23_4703

PubMedID: 35563094

Gene_locus related to this paper: bacha-BH3554

Title : Structure and dynamics of a cold-active esterase reveals water entropy and active site accessibility as the likely drivers for cold-adaptation - Noby_2021_Biorxiv__

Author(s) : Noby N , Auhim HS , Winter S , Worthy HL , Embaby AM , Saeed H , Hussein A , Pudney CR , Rizkallah PJ , Wells SA , Jones DD

Ref : Biorxiv , : , 2021

Abstract : Noby_2021_Biorxiv__

ESTHER : Noby_2021_Biorxiv__

PubMedSearch : Noby_2021_Biorxiv__

PubMedID:

Gene_locus related to this paper: 9baci-a0a2k9uv39

Title : Structure guided engineering of a cold active esterase expands substrate range though a stabilisation mutation that allows access to a buried water chamber - Noby_2021_Biorxiv_2_

Author(s) : Noby N , Johnson RL , Tyzack JD , Embaby AM , Saeed H , Hussein A , Khattab SN , Rizkallah PJ , Jones DD

Ref : Biorxiv , : , 2021

Abstract : Noby_2021_Biorxiv_2_

ESTHER : Noby_2021_Biorxiv_2_

PubMedSearch : Noby_2021_Biorxiv_2_

PubMedID:

Gene_locus related to this paper: 9baci-a0a2k9uv39

Title : Structure and in silico simulations of a cold-active esterase reveals its prime cold-adaptation mechanism - Noby_2021_Open.Biol_11_210182

Author(s) : Noby N , Auhim HS , Winter S , Worthy HL , Embaby AM , Saeed H , Hussein A , Pudney CR , Rizkallah PJ , Wells SA , Jones DD

Ref : Open Biol , 11 :210182 , 2021

Abstract : Noby_2021_Open.Biol_11_210182

ESTHER : Noby_2021_Open.Biol_11_210182

PubMedSearch : Noby_2021_Open.Biol_11_210182

PubMedID: 34847772

Gene_locus related to this paper: 9baci-a0a2k9uv39

Title : The highly crystalline PET found in plastic water bottles does not support the growth of the PETase-producing bacterium Ideonella sakaiensis - Wallace_2020_Environ.Microbiol.Rep_12_578

Author(s) : Wallace NE , Adams MC , Chafin AC , Jones DD , Tsui CL , Gruber TD

Ref : Environ Microbiol Rep , 12 :578 , 2020

Abstract : Wallace_2020_Environ.Microbiol.Rep_12_578

ESTHER : Wallace_2020_Environ.Microbiol.Rep_12_578

PubMedSearch : Wallace_2020_Environ.Microbiol.Rep_12_578

PubMedID: 32783383

Report for Jones DD

General

References (5)

Report for Jones DD

General

References (5)

1. Structure-Guided Engineering of a Family IV Cold-Adapted Esterase Expands Its Substrate Range

2. Structure and dynamics of a cold-active esterase reveals water entropy and active site accessibility as the likely drivers for cold-adaptation

3. Structure guided engineering of a cold active esterase expands substrate range though a stabilisation mutation that allows access to a buried water chamber

4. Structure and in silico simulations of a cold-active esterase reveals its prime cold-adaptation mechanism

5. The highly crystalline PET found in plastic water bottles does not support the growth of the PETase-producing bacterium Ideonella sakaiensis