| human | Q5 |
| P496 | ORCID iD | 0000-0002-6312-6968 |
| P2038 | ResearchGate profile ID | Axel_Kallies |
| P2006 | ZooBank author ID | DD4F3FB1-BC25-49BF-AAE2-B98D01CAAEF8 |
| P835 | author citation (zoology) | Kallies | |
| P27 | country of citizenship | Germany | Q183 |
| P735 | given name | Axel | Q5407300 |
| Axel | Q5407300 | ||
| P1412 | languages spoken, written or signed | German | Q188 |
| P106 | occupation | entomologist | Q3055126 |
| P21 | sex or gender | male | Q6581097 |
| Q91403882 | A divergent transcriptional landscape underpins the development and functional branching of MAIT cells |
| Q39942708 | A molecular threshold for effector CD8(+) T cell differentiation controlled by transcription factors Blimp-1 and T-bet. |
| Q54802264 | A new genus and species of myrmecophile clearwing moth (Lepidoptera: Sesiidae) from East Africa |
| Q28939867 | A new species and new records of Melittiini from China and Vietnam (Lepidoptera, Sesiidae) |
| Q54802301 | A new sun moth species from the Flinders Ranges in South Australia (Lepidoptera, Castniidae) |
| Q38715444 | A non-canonical function of Ezh2 preserves immune homeostasis. |
| Q46243534 | A preliminary molecular phylogeny of shield-bearer moths (Lepidoptera: Adeloidea: Heliozelidae) highlights rich undescribed diversity. |
| Q45300824 | A role for Blimp1 in the transcriptional network controlling natural killer cell maturation |
| Q57272555 | Activated Mouse B Cells Lack Expression of Granzyme B |
| Q112295617 | Antigen-driven EGR2 expression is required for exhausted CD8+ T cell stability and maintenance |
| Q92642722 | Attenuation of TCR-induced transcription by Bach2 controls regulatory T cell differentiation and homeostasis |
| Q36340884 | B and T cells collaborate in antiviral responses via IL-6, IL-21, and transcriptional activator and coactivator, Oct2 and OBF-1 |
| Q100316580 | BATF3 programs CD8+ T cell memory |
| Q36983660 | BLIMP1 guides the fate of effector B and T cells |
| Q50641090 | Bach2 is required for B cell and T cell memory differentiation. |
| Q42051349 | Bach2: plasma-cell differentiation takes a break |
| Q85331940 | Bcl-6 gets T cells off the sugar |
| Q37028954 | Blimp-1 connects the intrinsic and extrinsic regulation of T cell homeostasis. |
| Q36591114 | Blimp-1 controls plasma cell function through the regulation of immunoglobulin secretion and the unfolded protein response |
| Q90562687 | Blimp-1 induces and Hobit maintains the cytotoxic mediator granzyme B in CD8 T cells |
| Q34996288 | Blimp-1 transcription factor is required for the differentiation of effector CD8(+) T cells and memory responses |
| Q35893711 | Blimp-1-Dependent IL-10 Production by Tr1 Cells Regulates TNF-Mediated Tissue Pathology. |
| Q64228378 | Blimp1 Prevents Methylation of Foxp3 and Loss of Regulatory T Cell Identity at Sites of Inflammation |
| Q51746227 | Blimp1 is limiting for transformation in a mouse plasmacytoma model. |
| Q50656386 | Blimp1 regulates development of the posterior forelimb, caudal pharyngeal arches, heart and sensory vibrissae in mice. |
| Q37917684 | Blimp1: driving terminal differentiation to a T. |
| Q41299746 | Blocking IL-6 trans-signaling prevents high-fat diet-induced adipose tissue macrophage recruitment but does not improve insulin resistance |
| Q90412054 | CCR2 enhances CD25 expression by FoxP3+ regulatory T cells and regulates their abundance independently of chemotaxis and CCR2+ myeloid cells |
| Q24657562 | CD93 is required for maintenance of antibody secretion and persistence of plasma cells in the bone marrow niche |
| Q40589864 | CXCR5(+) follicular cytotoxic T cells control viral infection in B cell follicles |
| Q34441762 | Cleavage of roquin and regnase-1 by the paracaspase MALT1 releases their cooperatively repressed targets to promote T(H)17 differentiation |
| Q55358601 | Cord Blood CD8+ T Cells Have a Natural Propensity to Express IL-4 in a Fatty Acid Metabolism and Caspase Activation-Dependent Manner. |
| Q42566627 | Correction: Blimp-1-Dependent IL-10 Production by Tr1 Cells Regulates TNF-Mediated Tissue Pathology |
| Q90391279 | Defining 'T cell exhaustion' |
| Q38651644 | Development and Function of Effector Regulatory T Cells |
| Q45304582 | Different kinetics of blimp-1 induction in B cell subsets revealed by reporter gene. |
| Q36403618 | Differential requirement for OBF-1 during antibody-secreting cell differentiation |
| Q38065555 | Differentiation and function of Foxp3(+) effector regulatory T cells. |
| Q28508344 | Disabled-2 is transcriptionally regulated by ICSBP and augments macrophage spreading and adhesion. |
| Q110894838 | Discrete tissue microenvironments instruct diversity in resident memory T cell function and plasticity |
| Q37117559 | Distinct regulation of effector and memory T-cell differentiation. |
| Q125901117 | Divergent molecular networks program functionally distinct CD8 + skin-resident memory T cells |
| Q36949937 | Dynamic changes in Id3 and E-protein activity orchestrate germinal center and plasma cell development. |
| Q36403235 | Early appearance of germinal center-derived memory B cells and plasma cells in blood after primary immunization. |
| Q98665280 | Early precursor T cells establish and propagate T cell exhaustion in chronic infection |
| Q37740557 | Effector and memory CD8+ T cell differentiation: toward a molecular understanding of fate determination |
| Q40110847 | Eomesodermin promotes the development of type 1 regulatory T (TR1) cells. |
| Q61783443 | Erratum: Corrigendum: The transcription factor IRF4 is essential for TCR affinity–mediated metabolic programming and clonal expansion of T cells |
| Q57272933 | Erratum: The transcriptional regulators IRF4, BATF and IL-33 orchestrate development and maintenance of adipose tissue–resident regulatory T cells |
| Q44249895 | Fas ligand-mediated immune surveillance by T cells is essential for the control of spontaneous B cell lymphomas |
| Q46852519 | Finding a home for plasma cells--a niche to survive |
| Q88219309 | Follicular B Cells Promote Atherosclerosis via T Cell-Mediated Differentiation Into Plasma Cells and Secreting Pathogenic Immunoglobulin G |
| Q35239023 | Foxp3+ follicular regulatory T cells control the germinal center response. |
| Q42367894 | Glucose- and glutamine-fueled stabilization of C-Myc is required for T-cell proliferation and malignant transformation |
| Q28588804 | Hobit and Blimp1 instruct a universal transcriptional program of tissue residency in lymphocytes |
| Q97068851 | Human effector T cells express TOX-Not so "TOX"ic after all |
| Q36340857 | Human lymphoma mutations reveal CARD11 as the switch between self-antigen-induced B cell death or proliferation and autoantibody production. |
| Q92024647 | IL-17+ CD8+ T cell suppression by dimethyl fumarate associates with clinical response in multiple sclerosis |
| Q33780948 | IL-17-producing γδ T cells switch migratory patterns between resting and activated states |
| Q52900648 | IL-18 Production from the NLRP1 Inflammasome Prevents Obesity and Metabolic Syndrome. |
| Q33656121 | IL-21 regulates germinal center B cell differentiation and proliferation through a B cell-intrinsic mechanism |
| Q87811794 | IL-27 and IL-12 oppose pro-inflammatory IL-23 in CD4+ T cells by inducing Blimp1 |
| Q44757622 | IL-27 paves different roads to Tr1. |
| Q91489537 | IRF4 Activity Is Required in Established Plasma Cells to Regulate Gene Transcription and Mitochondrial Homeostasis |
| Q89991582 | IRF4 instructs effector Treg differentiation and immune suppression in human cancer |
| Q24617939 | Id2 expression delineates differential checkpoints in the genetic program of CD8α+ and CD103+ dendritic cell lineages |
| Q42225226 | Id2 represses E2A-mediated activation of IL-10 expression in T cells. |
| Q24632626 | Id2-mediated inhibition of E2A represses memory CD8+ T cell differentiation |
| Q60311662 | Identification of Bcl-6-dependent follicular helper NKT cells that provide cognate help for B cell responses |
| Q50003533 | Identifying Low-Grade Cellular Rejection after Heart Transplantation in Children using Gene Expression Profiling. |
| Q98578470 | Increased lipid metabolism impairs NK cell function and mediates adaptation to the lymphoma environment |
| Q50900427 | Initiation of plasma-cell differentiation is independent of the transcription factor Blimp-1. |
| Q47591113 | Interleukin (IL)-33 and the IL-1 Family of Cytokines-Regulators of Inflammation and Tissue Homeostasis. |
| Q41718326 | Interleukin-10-producing plasmablasts exert regulatory function in autoimmune inflammation |
| Q29461248 | Laetosphecia, a new genus of clearwing moths from south-eastern China, with a brief review of the Sesiini from China (Lepidoptera, Sesiidae) |
| Q41337629 | Lethal giant larvae-1 deficiency enhances the CD8(+) effector T-cell response to antigen challenge in vivo. |
| Q40116701 | Local Modulation of Antigen-Presenting Cell Development after Resolution of Pneumonia Induces Long-Term Susceptibility to Secondary Infections |
| Q58568564 | MAIT cells contribute to protection against lethal influenza infection in vivo |
| Q115780125 | MYB orchestrates T cell exhaustion and response to checkpoint inhibition |
| Q86656309 | Metabolism and lymphocyte biology |
| Q91618644 | Microbiota-Derived Short-Chain Fatty Acids Promote the Memory Potential of Antigen-Activated CD8+ T Cells |
| Q41676655 | Mouse CD8alpha+ DCs and human BDCA3+ DCs are major producers of IFN-lambda in response to poly IC. |
| Q36767459 | NFκB1 is essential to prevent the development of multiorgan autoimmunity by limiting IL-6 production in follicular B cells |
| Q45820670 | New insights into lymphocyte activation and differentiation. |
| Q116674716 | Oligophlebia hibiscivora sp. nov., a new species from south-eastern China (Lepidoptera, Sesiidae) |
| Q21079302 | Order Lepidoptera Linnaeus, 1758 |
| Q97569739 | Order Lepidoptera Linnaeus, 1758. In: Zhang, Z.-Q. (Ed.) Animal biodiversity: An outline of higher-level classification and survey of taxonomic richness |
| Q67531775 | PHF6 regulates hematopoietic stem and progenitor cells and its loss synergizes with expression of TLX3 to cause leukemia |
| Q34807009 | Peripheral natural killer cell maturation depends on the transcription factor Aiolos |
| Q37068273 | Plasma cell development: from B-cell subsets to long-term survival niches. |
| Q36399312 | Plasma cell ontogeny defined by quantitative changes in blimp-1 expression |
| Q90576088 | Precursor exhausted T cells: key to successful immunotherapy? |
| Q44016137 | Regulation of asymmetric cell division and polarity by Scribble is not required for humoral immunity. |
| Q40847543 | Severe Malaria Infections Impair Germinal Center Responses by Inhibiting T Follicular Helper Cell Differentiation |
| Q89900982 | Sex-specific adipose tissue imprinting of regulatory T cells |
| Q51285459 | Sugars and fat - A healthy way to generate functional regulatory T cells. |
| Q38566464 | Synchronizing transcriptional control of T cell metabolism and function |
| Q24206919 | Synemon ignita sp. nov., a new sun moth species from southern Australia (Lepidoptera, Castniidae) |
| Q42266888 | T cell immunosurveillance controls B lymphoma development |
| Q39110320 | T cell responses in the central nervous system |
| Q40865815 | T-box Transcription Factors Combine with the Cytokines TGF-β and IL-15 to Control Tissue-Resident Memory T Cell Fate. |
| Q36732840 | Terminal differentiation of lymphocytes depends on Blimp-1. |
| Q40372954 | The BCL-2 pro-survival protein A1 is dispensable for T cell homeostasis on viral infection. |
| Q22813370 | The Brachodidae of Sub-Saharan Africa (Lepidoptera, Cossoidea), with implications for the origin of the family |
| Q29463868 | The Paranthrenini of Mainland China (Lepidoptera, Sesiidae) |
| Q86576921 | The Regulatory T Cell: Jack-Of-All-Trades |
| Q59136452 | The Role of BACH2 in T Cells in Experimental Malaria Caused by AS |
| Q40058481 | The TNF Receptor Superfamily-NF-κB Axis Is Critical to Maintain Effector Regulatory T Cells in Lymphoid and Non-lymphoid Tissues |
| Q50499734 | The development and fate of follicular helper T cells defined by an IL-21 reporter mouse. |
| Q42267787 | The transcription factor IRF4 is essential for TCR affinity-mediated metabolic programming and clonal expansion of T cells |
| Q38336873 | The transcription factors Blimp-1 and IRF4 jointly control the differentiation and function of effector regulatory T cells |
| Q48234431 | The transcriptional regulators IRF4, BATF and IL-33 orchestrate development and maintenance of adipose tissue-resident regulatory T cells. |
| Q46019121 | Three new species of Heterosphecia Le Cerf, 1916, from the Oriental Region (Lepidoptera: Sesiidae: Sesiinae) |
| Q86975481 | Three new species of the genus Paradoxecia Hampson, 1919 (Lepidoptera: Sesiidae) from China |
| Q50027515 | Tissue-resident Lymphocytes in Solid Organ Transplantation: Innocent Passengers or the key to Organ Transplant Survival? |
| Q92384386 | Tissue-resident memory T cells keep cancer dormant |
| Q47288396 | Transcription Factor IRF4 Promotes CD8+ T Cell Exhaustion and Limits the Development of Memory-like T Cells during Chronic Infection. |
| Q39171638 | Transcription Factor T-bet Orchestrates Lineage Development and Function in the Immune System |
| Q91357527 | Transcription Factor T-bet in B Cells Modulates Germinal Center Polarization and Antibody Affinity Maturation in Response to Malaria |
| Q61783436 | Transcription Factor Theft—PU.1 Caught Red-Handed |
| Q45848689 | Transcription factor Bach2 balances tolerance and immunity. |
| Q42233927 | Transcription factor IRF4 regulates germinal center cell formation through a B cell-intrinsic mechanism |
| Q39034987 | Transcriptional Regulation of Tissue-Resident Lymphocytes. |
| Q61783468 | Transcriptional repressor Blimp-1 is essential for T cell homeostasis and self-tolerance |
| Q122226812 | Type 1 conventional dendritic cells maintain and guide the differentiation of precursors of exhausted T cells in distinct cellular niches |
| Q35951949 | Whole transcriptome analysis for T cell receptor-affinity and IRF4-regulated clonal expansion of T cells |
| Q91692053 | c-Maf-dependent Treg cell control of intestinal TH17 cells and IgA establishes host-microbiota homeostasis |
| Axel Kallies | wikimedia |
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