Viljoen-Bloom M

Title : Novel enzymatic cocktail enhances bioplastic hydrolysis and biomethane production during anaerobic digestion of organic fraction of municipal solid waste - Vezzini_2025_Bioresour.Technol_443_133908

Author(s) : Vezzini D , Faggian L , Myburgh MW , Facchini L , Conti A , Lorenzetti A , Viljoen-Bloom M , Favaro L

Ref : Bioresour Technol , 443 :133908 , 2025

Abstract :

PubMedSearch : Vezzini_2025_Bioresour.Technol_443_133908

PubMedID: 41475606

Title : Novel enzymatic cocktail enhances bioplastic hydrolysis and biomethane production during anaerobic digestion of organic fraction of municipal solid waste - Vezzini_2025_Bioresour.Technol_443_133908

Author(s) : Vezzini D , Faggian L , Myburgh MW , Facchini L , Conti A , Lorenzetti A , Viljoen-Bloom M , Favaro L

Ref : Bioresour Technol , 443 :133908 , 2025

Abstract :

PubMedSearch : Vezzini_2025_Bioresour.Technol_443_133908

PubMedID: 41475606

Title : Novel enzymatic cocktail enhances bioplastic hydrolysis and biomethane production during anaerobic digestion of organic fraction of municipal solid waste - Vezzini_2025_Bioresour.Technol_443_133908

Author(s) : Vezzini D , Faggian L , Myburgh MW , Facchini L , Conti A , Lorenzetti A , Viljoen-Bloom M , Favaro L

Ref : Bioresour Technol , 443 :133908 , 2025

Abstract :

PubMedSearch : Vezzini_2025_Bioresour.Technol_443_133908

PubMedID: 41475606

Title : Single-step conversion of starch-based bioplastics to bioethanol with recombinant yeast strains - Myburgh_2025_Bioresour.Technol_439_133359

Author(s) : Myburgh MW , Faggian L , Zanatta S , van Zyl WH , Viljoen-Bloom M , Favaro L

Ref : Bioresour Technol , 439 :133359 , 2025

Abstract :

PubMedSearch : Myburgh_2025_Bioresour.Technol_439_133359

PubMedID: 40975362

Gene_locus related to this paper: crysp-Q874E9

Title : Single-step conversion of starch-based bioplastics to bioethanol with recombinant yeast strains - Myburgh_2025_Bioresour.Technol_439_133359

Author(s) : Myburgh MW , Faggian L , Zanatta S , van Zyl WH , Viljoen-Bloom M , Favaro L

Ref : Bioresour Technol , 439 :133359 , 2025

Abstract :

PubMedSearch : Myburgh_2025_Bioresour.Technol_439_133359

PubMedID: 40975362

Gene_locus related to this paper: crysp-Q874E9

Title : Single-step conversion of starch-based bioplastics to bioethanol with recombinant yeast strains - Myburgh_2025_Bioresour.Technol_439_133359

Author(s) : Myburgh MW , Faggian L , Zanatta S , van Zyl WH , Viljoen-Bloom M , Favaro L

Ref : Bioresour Technol , 439 :133359 , 2025

Abstract :

PubMedSearch : Myburgh_2025_Bioresour.Technol_439_133359

PubMedID: 40975362

Gene_locus related to this paper: crysp-Q874E9

Title : Engineered yeast for the efficient hydrolysis of polylactic acid - Myburgh_2023_Bioresour.Technol__129008

Author(s) : Myburgh MW , Favaro L , van Zyl WH , Viljoen-Bloom M

Ref : Bioresour Technol , :129008 , 2023

Abstract :

PubMedSearch : Myburgh_2023_Bioresour.Technol__129008

PubMedID: 37011843

Gene_locus related to this paper: crysp-Q874E9

Title : Enzymatic hydrolysis of single-use bioplastic items by improved recombinant yeast strains - Myburgh_2023_Bioresour.Technol__129908

Author(s) : Myburgh MW , van Zyl WH , Modesti M , Viljoen-Bloom M , Favaro L

Ref : Bioresour Technol , :129908 , 2023

Abstract :

PubMedSearch : Myburgh_2023_Bioresour.Technol__129908

PubMedID: 37866766

Gene_locus related to this paper: crysp-Q874E9

Title : Engineered yeast for the efficient hydrolysis of polylactic acid - Myburgh_2023_Bioresour.Technol__129008

Author(s) : Myburgh MW , Favaro L , van Zyl WH , Viljoen-Bloom M

Ref : Bioresour Technol , :129008 , 2023

Abstract :

PubMedSearch : Myburgh_2023_Bioresour.Technol__129008

PubMedID: 37011843

Gene_locus related to this paper: crysp-Q874E9

Title : Enzymatic hydrolysis of single-use bioplastic items by improved recombinant yeast strains - Myburgh_2023_Bioresour.Technol__129908

Author(s) : Myburgh MW , van Zyl WH , Modesti M , Viljoen-Bloom M , Favaro L

Ref : Bioresour Technol , :129908 , 2023

Abstract :

PubMedSearch : Myburgh_2023_Bioresour.Technol__129908

PubMedID: 37866766

Gene_locus related to this paper: crysp-Q874E9

Title : Engineered yeast for the efficient hydrolysis of polylactic acid - Myburgh_2023_Bioresour.Technol__129008

Author(s) : Myburgh MW , Favaro L , van Zyl WH , Viljoen-Bloom M

Ref : Bioresour Technol , :129008 , 2023

Abstract :

PubMedSearch : Myburgh_2023_Bioresour.Technol__129008

PubMedID: 37011843

Gene_locus related to this paper: crysp-Q874E9

Title : Enzymatic hydrolysis of single-use bioplastic items by improved recombinant yeast strains - Myburgh_2023_Bioresour.Technol__129908

Author(s) : Myburgh MW , van Zyl WH , Modesti M , Viljoen-Bloom M , Favaro L

Ref : Bioresour Technol , :129908 , 2023

Abstract :

PubMedSearch : Myburgh_2023_Bioresour.Technol__129908

PubMedID: 37866766

Gene_locus related to this paper: crysp-Q874E9

Title : Overexpression of Aspergillus tubingensis faeA in protease-deficient Aspergillus niger enables ferulic acid production from plant material - Zwane_2014_J.Ind.Microbiol.Biotechnol_41_1027

Author(s) : Zwane EN , Rose SH , van Zyl WH , Rumbold K , Viljoen-Bloom M

Ref : J Ind Microbiol Biotechnol , 41 :1027 , 2014

Abstract :

PubMedSearch : Zwane_2014_J.Ind.Microbiol.Biotechnol_41_1027

PubMedID: 24664515

Gene_locus related to this paper: asptu-FAEA

Title : Overexpression of Aspergillus tubingensis faeA in protease-deficient Aspergillus niger enables ferulic acid production from plant material - Zwane_2014_J.Ind.Microbiol.Biotechnol_41_1027

Author(s) : Zwane EN , Rose SH , van Zyl WH , Rumbold K , Viljoen-Bloom M

Ref : J Ind Microbiol Biotechnol , 41 :1027 , 2014

Abstract :

PubMedSearch : Zwane_2014_J.Ind.Microbiol.Biotechnol_41_1027

PubMedID: 24664515

Gene_locus related to this paper: asptu-FAEA

Title : Overexpression of Aspergillus tubingensis faeA in protease-deficient Aspergillus niger enables ferulic acid production from plant material - Zwane_2014_J.Ind.Microbiol.Biotechnol_41_1027

Author(s) : Zwane EN , Rose SH , van Zyl WH , Rumbold K , Viljoen-Bloom M

Ref : J Ind Microbiol Biotechnol , 41 :1027 , 2014

Abstract :

PubMedSearch : Zwane_2014_J.Ind.Microbiol.Biotechnol_41_1027

PubMedID: 24664515

Gene_locus related to this paper: asptu-FAEA

Viljoen-Bloom M

References (15)

1. Novel enzymatic cocktail enhances bioplastic hydrolysis and biomethane production during anaerobic digestion of organic fraction of municipal solid waste - Vezzini_2025_Bioresour.Technol_443_133908

2. Novel enzymatic cocktail enhances bioplastic hydrolysis and biomethane production during anaerobic digestion of organic fraction of municipal solid waste - Vezzini_2025_Bioresour.Technol_443_133908

3. Novel enzymatic cocktail enhances bioplastic hydrolysis and biomethane production during anaerobic digestion of organic fraction of municipal solid waste - Vezzini_2025_Bioresour.Technol_443_133908

4. Single-step conversion of starch-based bioplastics to bioethanol with recombinant yeast strains - Myburgh_2025_Bioresour.Technol_439_133359

5. Single-step conversion of starch-based bioplastics to bioethanol with recombinant yeast strains - Myburgh_2025_Bioresour.Technol_439_133359

6. Single-step conversion of starch-based bioplastics to bioethanol with recombinant yeast strains - Myburgh_2025_Bioresour.Technol_439_133359

7. Engineered yeast for the efficient hydrolysis of polylactic acid - Myburgh_2023_Bioresour.Technol__129008

8. Enzymatic hydrolysis of single-use bioplastic items by improved recombinant yeast strains - Myburgh_2023_Bioresour.Technol__129908

9. Engineered yeast for the efficient hydrolysis of polylactic acid - Myburgh_2023_Bioresour.Technol__129008

10. Enzymatic hydrolysis of single-use bioplastic items by improved recombinant yeast strains - Myburgh_2023_Bioresour.Technol__129908

11. Engineered yeast for the efficient hydrolysis of polylactic acid - Myburgh_2023_Bioresour.Technol__129008

12. Enzymatic hydrolysis of single-use bioplastic items by improved recombinant yeast strains - Myburgh_2023_Bioresour.Technol__129908

13. Overexpression of Aspergillus tubingensis faeA in protease-deficient Aspergillus niger enables ferulic acid production from plant material - Zwane_2014_J.Ind.Microbiol.Biotechnol_41_1027

14. Overexpression of Aspergillus tubingensis faeA in protease-deficient Aspergillus niger enables ferulic acid production from plant material - Zwane_2014_J.Ind.Microbiol.Biotechnol_41_1027

15. Overexpression of Aspergillus tubingensis faeA in protease-deficient Aspergillus niger enables ferulic acid production from plant material - Zwane_2014_J.Ind.Microbiol.Biotechnol_41_1027