| human | Q5 |
| P6178 | Dimensions author ID | 0711602540.34 |
| P6634 | LinkedIn personal profile ID | geanncarlolugo |
| P2798 | Loop ID | 32430 |
| P496 | ORCID iD | 0000-0003-4620-8491 |
| P1153 | Scopus author ID | 6504793031 |
| P69 | educated at | Harvard University | Q13371 |
| San Diego State University | Q913861 | ||
| Toulouse III University - Paul-Sabatier | Q1273188 | ||
| P108 | employer | University of Oxford | Q34433 |
| National Institutes of Health | Q390551 | ||
| University of California, San Diego | Q622664 | ||
| Scripps Research | Q793867 | ||
| Institute of Pharmacology and Structural Biology | Q18214944 | ||
| Délégation Midi Pyrénées | Q30299255 | ||
| P106 | occupation | researcher | Q1650915 |
| P21 | sex or gender | male | Q6581097 |
| Q37354966 | A defective Vkappa A2 allele in Navajos which may play a role in increased susceptibility to haemophilus influenzae type b disease |
| Q33564551 | A genomic portrait of the genetic architecture and regulatory impact of microRNA expression in response to infection |
| Q28216172 | A mammalian homolog of Drosophila schnurri, KRC, regulates TNF receptor-driven responses and interacts with TRAF2 |
| Q36903313 | Actin-binding protein regulation by microRNAs as a novel microbial strategy to modulate phagocytosis by host cells: the case of N-Wasp and miR-142-3p |
| Q48303926 | An efficient siRNA-mediated gene silencing in primary human monocytes, dendritic cells and macrophages |
| Q37612545 | C-type lectin receptor DCIR modulates immunity to tuberculosis by sustaining type I interferon signaling in dendritic cells |
| Q37490137 | C-type lectins with a sweet spot for Mycobacterium tuberculosis |
| Q35691023 | Collectin CL-LK Is a Novel Soluble Pattern Recognition Receptor for Mycobacterium tuberculosis |
| Q24680733 | Communicable ulcerative colitis induced by T-bet deficiency in the innate immune system |
| Q62801448 | Cutting Edge: STAT1 and T-bet Play Distinct Roles in Determining Outcome of Visceral Leishmaniasis Caused by Leishmania donovani |
| Q39275937 | Diverging biological roles among human monocyte subsets in the context of tuberculosis infection |
| Q51837866 | Dressed not to kill: CD16+ monocytes impair immune defence against tuberculosis. |
| Q62801431 | Editorial: How to play tag? DC-SIGN shows the way! |
| Q39487696 | Emerging trends in the formation and function of tuberculosis granulomas |
| Q34310922 | Eosinophils in the zebrafish: prospective isolation, characterization, and eosinophilia induction by helminth determinants |
| Q100406944 | Fatty acid oxidation of alternatively activated macrophages prevents foam cell formation, but Mycobacterium tuberculosis counteracts this process via HIF-1α activation |
| Q104619112 | Host-Derived Lipids from Tuberculous Pleurisy Impair Macrophage Microbicidal-Associated Metabolic Activity |
| Q35928399 | Macrophage polarization: convergence point targeted by mycobacterium tuberculosis and HIV. |
| Q34400291 | Manipulation of the mononuclear phagocyte system by Mycobacterium tuberculosis |
| Q62801421 | Metallobiology of host–pathogen interactions: an intoxicating new insight |
| Q35564117 | Mycobacterial p(1)-type ATPases mediate resistance to zinc poisoning in human macrophages |
| Q37376211 | Mycobacterium tuberculosis nitrogen assimilation and host colonization require aspartate |
| Q62801409 | Of Clots and Granulomas: Platelets are New Players in Immunity to Tuberculosis |
| Q54211958 | Podosomes, But Not the Maturation Status, Determine the Protease-Dependent 3D Migration in Human Dendritic Cells. |
| Q41620113 | Pyroptosis of resident macrophages differentially orchestrates inflammatory responses to Staphylococcus aureus in resistant and susceptible mice |
| Q37215806 | Role of Cathepsins in Mycobacterium tuberculosis Survival in Human Macrophages |
| Q39033321 | SIGNing a symbiotic treaty with gut microbiota |
| Q36400779 | Sequence of the spacer in the recombination signal sequence affects V(D)J rearrangement frequency and correlates with nonrandom Vkappa usage in vivo |
| Q30658251 | Small molecule-mediated activation of the integrin CD11b/CD18 reduces inflammatory disease |
| Q35146723 | T-bet is required for optimal production of IFN-gamma and antigen-specific T cell activation by dendritic cells |
| Q37006604 | T-bet plays a key role in NK-mediated control of melanoma metastatic disease |
| Q55436439 | The C-Type Lectin Receptor DC-SIGN Has an Anti-Inflammatory Role in Human M(IL-4) Macrophages in Response to Mycobacterium tuberculosis. |
| Q39301725 | The C-type lectin receptors dectin-1, MR, and SIGNR3 contribute both positively and negatively to the macrophage response to Leishmania infantum |
| Q33948105 | The adjuvant activity of CpG DNA requires T-bet expression in dendritic cells |
| Q62801401 | The role of the lung microbiota and the gut-lung axis in respiratory infectious diseases |
| Q34249605 | Transcription factor T-bet regulates inflammatory arthritis through its function in dendritic cells |
| Q36350080 | Tuberculosis is associated with expansion of a motile, permissive and immunomodulatory CD16(+) monocyte population via the IL-10/STAT3 axis |
| Q49437396 | Tunneling Nanotubes: Intimate Communication between Myeloid Cells |
| Q55333182 | Type-2 diabetes alters the basal phenotype of human macrophages and diminishes their capacity to respond, internalise, and control Mycobacterium tuberculosis. |
| Q100477601 | [The Siglec-1 receptor: bridging the infectious synergy between Mycobacterium tuberculosis and HIV-1] |
Search more.