Mohamad J H Manesh
Overview
Explore the profile of Mohamad J H Manesh including associated specialties, affiliations and a list of published articles.
Author names and details appear as published. Due to indexing inconsistencies, multiple individuals may share a name, and a single author may have variations. MedLuna displays this data as publicly available, without modification or verification
Snapshot
Snapshot
Articles
12
Citations
12
Followers
0
Related Specialties
Related Specialties
Top 10 Co-Authors
Top 10 Co-Authors
Published In
Affiliations
Affiliations
Soon will be listed here.
Recent Articles
1.
Ford K, Bing R, Manesh M, Adams M, Kelly R
Trends Microbiol
. 2025 Feb;
PMID: 40021387
No abstract available.
2.
Bing R, Sulis D, Carey M, Manesh M, Ford K, Straub C, et al.
Sci Adv
. 2024 Oct;
10(42):eadq4941.
PMID: 39423261
Renewable alternatives for nonelectrifiable fossil-derived chemicals are needed and plant matter, the most abundant biomass on Earth, provide an ideal feedstock. However, the heterogeneous polymeric composition of lignocellulose makes conversion...
3.
Bing R, Ford K, Willard D, Manesh M, Straub C, Laemthong T, et al.
Metab Eng
. 2024 Sep;
86:99-114.
PMID: 39305946
The anaerobic bacterium Anaerocellum (f. Caldicellulosiruptor) bescii natively ferments the carbohydrate content of plant biomass (including microcrystalline cellulose) into predominantly acetate, H, and CO, and smaller amounts of lactate, alanine...
4.
Manesh M, Willard D, John K, Kelly R
Bioresour Technol
. 2024 Aug;
408:131198.
PMID: 39097239
Factors that contribute to optimal chalcopyrite bioleaching by extremely thermoacidophilic archaea were examined for ten species belonging to the order Sulfolobales from the genera Acidianus (A. brierleyi), Metallosphaera (M. hakonensis,...
5.
Willard D, Manesh M, Bing R, Alexander B, Kelly R
mBio
. 2024 Jul;
15(8):e0103324.
PMID: 38953360
Certain members of the family Sulfolobaceae represent the only archaea known to oxidize elemental sulfur, and their evolutionary history provides a framework to understand the development of chemolithotrophic growth by...
6.
Manesh M, Bing R, Willard D, Kelly R
Microbiol Resour Announc
. 2024 Feb;
13(3):e0122823.
PMID: 38329354
The complete genome sequence of the thermoacidophilic archaeon (DSM 5348) is reported here. , originally isolated from a volcanic field in Italy, is a prolific iron-oxidizing archaeon with applications in...
7.
Manesh M, Bing R, Willard D, Adams M, Kelly R
Microbiol Resour Announc
. 2024 Jan;
13(2):e0122923.
PMID: 38265218
The complete genome sequence of the extremely thermophilic bacterium () (DSM:8977) is reported here. is a fermentative anaerobe and capable of lignocellulose degradation with potential applications in biomass degradation and...
8.
Willard D, Manesh M, Bing R, Kelly R
Microbiol Resour Announc
. 2023 Dec;
13(1):e0098123.
PMID: 38054707
Reported here is the complete genome sequence (2,191,724 bp) for the thermoacidophilic archaeon (f) DSM 6482 (T 65°C, pH 2.0). This obligately chemolithoautotrophic microorganism is a prolific metal and sulfur...
9.
Manesh M, Willard D, Lewis A, Kelly R
Bioresour Technol
. 2023 Nov;
391(Pt B):129988.
PMID: 37949149
Elevated temperatures favor bioleaching processes through faster kinetics, more favorable mineral chemistry, lower cooling requirements, and less surface passivation. Extremely thermoacidophilic archaea from the order Sulfolobales exhibit novel mechanisms for...
10.
Lewis A, Willard D, Manesh M, Sivabalasarma S, Albers S, Kelly R
mBio
. 2023 Apr;
14(2):e0005323.
PMID: 37036347
A type II VapB14 antitoxin regulates biofilm dispersal in the archaeal thermoacidophile Sulfolobus acidocaldarius through traditional toxin neutralization but also through noncanonical transcriptional regulation. Type II VapC toxins are ribonucleases...