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- Poster Presentations
| Last name | Abstract Title | Poster # |
| Adhvaryu | Coxiella burnetii Alters Human Macrophage Metabolism and Mitochondrial Physiology | P63 |
| Akinsulie | Characterizing the functional antibody response to Anaplasma marginale | P34 |
| Allen | Orientia tsutsugamushi Ank13 promotes degradation of mindbomb1 to dysregulate Notch signaling | P37 |
| Allerdice | Development of an intradermal model of infection in guinea pigs to investigate the pathogenic potential of Rickettsia species | P29 |
| Anderson | Development of a Lipid-based Method for Fluorescent Labeling of Coxiella burnetii: A Work in Progress | P66 |
| Arunima | Identification of long non-coding RNAs lnc-CYP1B1 and lnc-DKK2 as potential biomarkers for Coxiella burnetii infection | P64 |
| Bacher | Comparative analysis of Rickettsia actin-based motility mechanisms | P26 |
| Ball |
Neisseria gonorrhoeae drives Chlamydia trachomatis into a persistent state during in vitro co-infection |
P79 |
| Biancaniello | Role of lipid droplets and prostaglandinE2 in Coxiella burnetii intracellulargrowth. | P71 |
| Binette | Non-specific Immune Induction via Distinct Routes of Vaccination and Infection with Coxiella burnetii | P62 |
| Cadby | The structure of the OmpA/Pal protein of Anaplasma phagocytophilum |
P11 |
| Cassens | Environmental drivers of immature Ixodes scapularis in Minnesota's metro area | P45 |
| Chiarelli | Anaplasma phagocytophilum modulates intracellular calcium levels to facilitate regulated exocytosis of the pathogen-containing vacuole. | P03 |
| Clark | Coxiella burnetii modulates the host cell cycle to establish and mature the CCV | P69 |
| Crocquet-Valdes | Recombinant Adenovirus Expressing P56 Antigen as Vaccine Candidates for Protection against Scrub Typhus Infection | P53 |
| Cull | Contributions of the Ixodes scapularis endosymbiont Rickettsia buchneri to infection and immunity of its tick host | P21 |
| Duan | Nanobodies Against Type IV Secretion Effector Etf-3 Inhibit Ehrlichia Infection and Etf-3-Induced Ferritinophagy | P08 |
| Duc Cuong | Ehrlichia ubiquitination and degradation of mRNA splicing factor hnRNPA2B1 | P05 |
| Dumaine | Functional characterization of Coxiella burnetii nuclear-targeted effectors during infection | P70 |
| Duraes | The Importance of Epidemiological Surveillance in Sentinel Hosts in the Identification and Monitoring of Areas with a Risk of Re-emergence of Tick-Borne Diseases | P41 |
| Eremeeva | Ticks and tick-borne pathogens in green zones of a university campus in Georgia, USA | P25 |
| Eremeeva | Galleria mellonella infection model for studying immune responses to Bartonella bacilliformis | P36 |
| Esteves | Antigenic salivary proteins from Amblyomma sculptum: potential targets to control ticks and block Rickettsia rickettsii transmission. | P44 |
| Fang | Antibodies contribute to vaccine protection against rickettsiae in mice | P50 |
| Fang |
Development of a rapid antigen detection test as a potential diagnostic assay for fatal spotted fever rickettsioses | P78 |
| Farner | Calcium signaling in spotted fever group rickettsiae induced microvascular endothelial cell barrier permeability | P23 |
| Fuller | Specific Binding of anti-Rickettsia Immune IgM to the β-peptide of rOmpB | P30 |
| Ganta | A novel targeted mutagenesis method for generating antisense RNA to knockdown Ehrlichia chaffeensis p28-Outer membrane protein 19 (p28-Omp 19) expression | P12 |
| Ganta | A genetically modified live vaccine induces long-lasting protection against wild-type Ehrlichia chaffeensis infection by mechanical and tick transmission. | P52 |
| Goley | Cell polarity ofRickettsia parkeri | P22 |
| Goodman | STING-dependent BAX-IRF3 signaling results in apoptosis during late-stage Coxiella burnetii infection | P61 |
| Helminiak | Secretion and biological roles of a hemolysin, tlyC2, in rickettsial intracellular lifecycle | P20 |
| Karpathy | Characterization of a novel Anaplasma bovis-like human pathogen in the United States | P47 |
| Khoo | Oral delivery of dsRNA for RNAi via capillary feeding and artificial membrane feeding | P17 |
| Killips | Coxiella burnetii manipulates host MiT-TFE proteins to influence lysosome biogenesis and promote infection | P68 |
| Laukaitis |
The genetic landscape of Ixodes scapularis hemocytes | P75 |
| Lin | Comparative Genome Sequence Analysis of Ehrlichia muris subsp. eauclairensis Wisconsin, an Isolate from Human Ehrlichiosis Patients | P09 |
| Liu | Characterization of global response regulators of Ehrlichia chaffeensis, CtrA and Tr1, is facilitated by targeted mutagenesis to generate C-terminal hemagglutinin tags. | P13 |
| Londono | Benidipine delays disease severity and immunopathogenesis in Anaplasma phagocytophilum infection in the AG129 mouse model | P35 |
| Lührmann | TNFα secretion is blocked in C. burnetii-infected bovine macrophages | P55 |
| Luo | High-throughput identification of Ehrlichia chaffeensis immunodominant proteins | P48 |
| Lynn | Phenology, host associations, and prevalence of Rickettsia parkeriin Amblyomma maculatum group ticks collected in southern Arizona. | P24 |
| Lal Sarkar | Tissue Localization and Profiling of Bacterial Symbionts in the Invasive Asian Longhorned Tick, Haemaphysalis longicornis | P74 |
| Makgabo | The blood microbiome of patients with acute febrile illness in the Mnisi community, South Africa, reveals the presence of a novel member of the family Rickettsiaceae | P15 |
| McCaslin | The Chlamydia trachomatis secreted effector protein CT181 binds to the apoptosis regulator, Mcl-1, to promote infection | P57 |
| Mori | Field-evaluation of screening tests for the diagnosis of Q fever in breeding bucks and rams. | P42 |
| Narra | Non-coding RNA mediated regulation of Orientia coding transcriptome during host-pathogen interaction | P39 |
| Neelakanta | An anti-vector vaccine targeting rickettsial pathogen transmission from ticks | P16 |
| Noh | Multistrain A. marginale infections are unexpectedly common in a Kansas cattle herd | P49 |
| Oliver | Microbiome and nanopore adaptive sampling surveillance for tick-borne pathogens | P46 |
| Pickle | Detection of Candidatus Rickettsia andeanae in South Carolina | P19 |
| Pittner | EhrlichiaCo-opts Host Cell NFAT Signaling Using Ligand Mimicry | P06 |
| Priestley | Growth characteristics of contemporary Coxiella strains in vitro: adventuring beyond Nine Mile | P72 |
| Quintana | Development of a 23S rRNA real-time reverse transcription PCR assay for detection of Rickettsia typhi and Rickettsia felis in clinical specimens | P43 |
| Read | A novel regulator of Golgi fragmentation, ceramide-1-phosphate, is essential forAnaplasma phagocytophilum pathogenesis | P02 |
| Richards | Characterizing strain-specific host-pathogen interactions that modulate Coxiella burnetii infection | P58 |
| Rikihisa | Inhibition of Ehrlichia Infection by Intracellular Nanobodies that Block Etf-2 Binding to Active RAB5 and Localization to Endosomes | P04 |
| Riley |
Assessment of Susceptibility to Rickettsia conorii Infection Using the Collaborative Cross Mouse Model |
P76 |
| Sahni | LncRNA-mediated regulation of endothelial inflammation during rickettsial infection | P33 |
| Sanchez | Impairment of host glycolysis fails to inhibit intracellular replication of the nutrient parasite Orientia tsutsugamushi | P40 |
| Schulze-Lührmann | Egress mechanisms of Coxiella burnetii | P56 |
| Sharma |
Evasion of Host Antioxidative Response via Disruption of NRF2 Signaling in Fatal Ehrlichia -Induced Liver Injury |
P80 |
| Shaw | PERK-mediated antioxidant response is key for pathogen persistence in ticks | P18 |
| Sidak-Loftis | Unfolding vector immunity and advancing research tools for Ixodes scapularis | P14 |
| Siff | Analysis of Ank1 and Ank6 proteins from different Orientia tsutsugamushistrains for the ability to inhibit NF-κB | P38 |
| Sims | The Contribution of C. burnetii Developmental Stage to Intracellular Pathogenesis | P65 |
| Singh | CRISPR-Cas9 Gene Editing in Tick Cells | P31 |
| Sladek | Host Lipid Transport Protein ORP1 Is Necessary for Coxiella burnetii Growth and Vacuole Expansion in Macrophages | P59 |
| Snellgrove | Dermacentor similis is a competent reservoir of Rickettsia rickettsii under laboratory conditions | P28 |
| Solomon | Ehrlichia chaffeensis TRP120 utilizes short linear motif mimicry (SLiM-icry) to induce a chemokine response in human monocytes | P01 |
| Sondhiya | Molecular detection of Orientia tsutsugamushi DNA by PCR and qPCR targeting repeat sequences | P51 |
| Suwanbongkot |
Role of T-cells in Rickettsia parkeri infection at skin interface | P32 |
| Thiong'o | Defining the contribution of dacC to Q fever pathogenesis | P67 |
| Teymournejad |
Hepatocyte-Specific Regulation of Autophagy and Inflammasome Activation during Infection with Intracellular Bacteria Targeting Liver |
P77 |
| Vaughn | The Role of Endosymbiotic Rickettsia spp. in Spotted Fever Group Infections | P27 |
| Wang | A Novel T4SS Effector Facilitates Anaplasma phagocytophilum Infection by Engaging ER-Golgi Pathway | P07 |
| Zhang | Mechanisms of Coxiella burnetii Infection Induced Autoantibodies in Mice | P60 |
| Zhong | Expression and Upregulation of de novo Folate Biosynthesis Pathway Genes of Rickettsia monacensis strain Humboldt in Engorged Larvae of Ixodes pacificus | P73 |
| Zhu | Ehrlichia chaffeensis TRP120-mediated ubiquitination and degradation of the COP9 signalosome | P10 |