| This article has been cited by |
| 1 | Rv1717 Is a Cell Wall - Associated ß-Galactosidase of Mycobacterium tuberculosis That Is Involved in Biofilm Dispersion | |
| Suman Bharti,Rahul Kumar Maurya,Umamageswaran Venugopal,Radhika Singh,Md. Sohail Akhtar,Manju Yasoda Krishnan |
| Frontiers in Microbiology.2021;11() |
| [DOI] |
|
| 2 | Intrabacterial lipid inclusions in mycobacteria: unexpected key players in survival and pathogenesis? | |
| Ivy Mallick,Pierre Santucci,Isabelle Poncin,Vanessa Point,Laurent Kremer,Jean-François Cavalier,Stéphane Canaan |
| FEMS Microbiology Reviews.2021;45(6) |
| [DOI] |
|
| 3 | Foam Cell Macrophages in Tuberculosis | |
| Pooja Agarwal,Siamon Gordon,Fernando O. Martinez |
| Frontiers in Immunology.2021;12(6) |
| [DOI] |
|
| 4 | Over-expression of Tgs1 in Mycobacterium marinum enhances virulence in adult zebrafish | |
| Ding-qian Liu,Jun-li Zhang,Zhi-fen Pan,Jun-tao Mai,Heng-jun Mei,Yue Dai,Lu Zhang,Qing-zhong Wang |
| International Journal of Medical Microbiology.2020;310(1)151378 |
| [DOI] |
|
| 5 | Mycobacterium tuberculosis whiB3 and Lipid Metabolism Genes Are Regulated by Host Induced Oxidative Stress | |
| Omar M. Barrientos,Elizabeth Langley,Yolanda González,Carlos Cabello,Martha Torres,Silvia Guzmán-Beltrán |
| Microorganisms.2022;10(9)1821 |
| [DOI] |
|
| 6 | Adipocyte Model of Mycobacterium tuberculosis Infection Reveals Differential Availability of Iron to Bacilli in the Lipid-Rich Caseous Environment | |
| Ananya Nandy,Anupam Kumar Mondal,Rajesh Pandey,Prabhakar Arumugam,Stanzin Dawa,Neetika Jaisinghani,Vivek Rao,Debasis Dash,Sheetal Gandotra,Sabine Ehrt |
| Infection and Immunity.2018;86(6)1821 |
| [DOI] |
|
| 7 | Cholesterol plays a larger role during Mycobacterium tuberculosis in vitro dormancy and reactivation than previously suspected | |
| Maria D. Soto-Ramirez,Diana A. Aguilar-Ayala,Lazaro Garcia-Morales,Sofia M. Rodriguez-Peredo,Claudia Badillo-Lopez,Diana E. Rios-Muñiz,Mario A. Meza-Segura,Gelen Y. Rivera-Morales,Lizbel Leon-Solis,Jorge F. Cerna-Cortes,Sandra Rivera-Gutierrez,Addy C. Helguera-Repetto,Jorge A. Gonzalez-y-Merchand |
| Tuberculosis.2017;103(6)1 |
| [DOI] |
|
| 8 | Mycobacterium canettii Infection of Adipose Tissues | |
| Fériel Bouzid,Fabienne Brégeon,Isabelle Poncin,Pascal Weber,Michel Drancourt,Stéphane Canaan |
| Frontiers in Cellular and Infection Microbiology.2017;7(6)1 |
| [DOI] |
|
| 9 | The Immune Response in Adipocytes and Their Susceptibility to Infection: A Possible Relationship with Infectobesity | |
| Orestes López-Ortega,Nidia Carolina Moreno-Corona,Victor Javier Cruz-Holguin,Luis Didier Garcia-Gonzalez,Addy Cecilia Helguera-Repetto,Mirza Romero-Valdovinos,Haruki Arevalo-Romero,Leticia Cedillo-Barron,Moisés León-Juárez |
| International Journal of Molecular Sciences.2022;23(11)6154 |
| [DOI] |
|
| 10 | Structural Basis for the Strict Substrate Selectivity of the Mycobacterial Hydrolase LipW | |
| Magy G. McKary,Jan Abendroth,Thomas E. Edwards,R. Jeremy Johnson |
| Biochemistry.2016;55(51)7099 |
| [DOI] |
|
| 11 | Effect of Mycobacterium tuberculosis infection on adipocyte physiology | |
| Janeesh Plakkal Ayyappan,Christopher Vinnard,Selvakumar Subbian,Jyothi F. Nagajyothi |
| Microbes and Infection.2018;20(2)81 |
| [DOI] |
|
| 12 | “Genetic regulation of Mycobacterium tuberculosis in a lipid-rich environment” | |
| Diana A. Aguilar-Ayala,Juan Carlos Palomino,Peter Vandamme,Anandi Martin,Jorge A. Gonzalez-y-Merchand |
| Infection, Genetics and Evolution.2017;55(2)392 |
| [DOI] |
|
| 13 | Triacylglycerols: Fuelling the Hibernating Mycobacterium tuberculosis | |
| Rahul Kumar Maurya,Suman Bharti,Manju Y. Krishnan |
| Frontiers in Cellular and Infection Microbiology.2019;8(2)392 |
| [DOI] |
|
| 14 | Determination of Genetic Effects of LIPK and LIPJ Genes on Milk Fatty Acids in Dairy Cattle | |
| Lijun Shi,Bo Han,Lin Liu,Xiaoqing Lv,Zhu Ma,Cong Li,Lingna Xu,Yanhua Li,Feng Zhao,Yuze Yang,Dongxiao Sun |
| Genes.2019;10(2)86 |
| [DOI] |
|
| 15 | The diacylglycerol acyltransferase Rv3371 of Mycobacterium tuberculosis is required for growth arrest and involved in stress-induced cell wall alterations | |
| Shivangi Rastogi,Amit Kumar Singh,Gyan Chandra,Pragati Kushwaha,Garima Pant,Kavita Singh,Kalyan Mitra,Koneni V. Sashidhara,Manju Y. Krishnan |
| Tuberculosis.2017;104(2)8 |
| [DOI] |
|
| 16 | Experimental Models of Foamy Macrophages and Approaches for Dissecting the Mechanisms of Lipid Accumulation and Consumption during Dormancy and Reactivation of Tuberculosis | |
| Pierre Santucci,Feriel Bouzid,Nabil Smichi,Isabelle Poncin,Laurent Kremer,Chantal De Chastellier,Michel Drancourt,Stéphane Canaan |
| Frontiers in Cellular and Infection Microbiology.2016;6(2)8 |
| [DOI] |
|
| 17 | Triacylglycerol: nourishing molecule in endurance of Mycobacterium tuberculosis | |
| Pratap C Mali,Laxman S Meena |
| Journal of Biosciences.2018;43(1)149 |
| [DOI] |
|
| 18 | Down-regulation of PE11, a cell wall associated esterase, enhances the biofilm growth of Mycobacterium tuberculosis and reduces cell wall virulence lipid levels | |
| Shivangi Rastogi,Amit Kumar Singh,Garima Pant,Kalyan Mitra,Koneni V. Sashidhara,Manju Y. Krishnan |
| Microbiology.2017;163(1)52 |
| [DOI] |
|
| 19 | EphH, a unique epoxide hydrolase encoded by Rv3338 is involved in the survival of Mycobacterium tuberculosis under in vitro stress and vacuolar pH-induced changes | |
| Tanu Garg,Swetarka Das,Shriya Singh,Mohmmad Imran,Atri Mukhopadhyay,Umesh D. Gupta,Sidharth Chopra,Arunava Dasgupta |
| Frontiers in Microbiology.2023;13(1)52 |
| [DOI] |
|
