Poster number, Title, Author – Institute
1. HMBX-1, a novel SKN-1/Nrf2 regulator modulates α-dicarbonyl induced pathologies in a C. elegans model of Diabetic complications and Parkinson’s disease.
Sanjib Guha - Buck Institute
2. Quantitatively determining C. elegans feeding through optical spectroscopy.
Alex Codik – Santa Clara University
3. NHR-23: Orchestrating Cell Division in Spermatogenesis.
Matt Ragle – UC Santa Cruz
4. The actin-based SUN-KASH enhancer pathway and its role in nuclear migration.
Linda Ma – UC Davis
5. Localization of odor receptors in C. elegans.
Alyssa Quiogue & Opal Stayer-Wilburn– Mills College
6. Positioning nuclei and organelles: LINC complex and beyond.
Hongyan Hao – UC Davis
7. How is DEGT-1, a DEG/ENAC/ASIC ion channel subunit, involved in touch sensation?
Sylvia Fechner - Stanford
8. Illuminating developmental regulatory networks to reveal how cells establish identity.
Paul Goetsch – UC Santa Cruz
9. PCH-2 Regulates Pairing and Synapsis via HTP-3 in C. elegans Meiosis.
Stefani Giacopazzi – UC Santa Cruz
10. Identifying Mechanisms of RNA Export from C. elegans Neurons.
Katharine Mellman – UC San Francisco
11. A two-step mechanism for the inactivation of MTOC function at the centrosome.
Jeremy Magescas - Stanford
12. Adapting a proximity labeling technique to identify novel noncentrosomal MTOC proteins in C. elegans.
Ariana Sanchez - Stanford
13 Analyzing DNA organization in C. elegans germ cells.
Sreejith Ramakrishnan - Stanford
14. A role for chromosome bipolarity in spindle bipolarity.
Skylynn Thangwaritorn – UC Davis
15. Elucidation of the molecular mechanisms that underlie neural circuit formation.
Nghi Le – San Jose SU
16. Sensory activity is required for synaptic integrity in C. elegans.
Angelina Tang - San Jose SU
17. The hermaphrodite state but not the female state confers protection from male-induced demise.
Lauren N. Booth - Stanford
18. Identifying and Understanding the Role of Microtubule Associating Proteins in C. elegans.
Michael Tran - Stanford
19. Investigating the robustness of the meiotic recombination process.
Chloe Girard - Stanford
20. Touch-evoked Mechanical Strain in C. elegans Sensory Neurons.
Adam L. Nekimken - Stanford
21. Age-dependent Changes in C. elegans Gut Microbiota.
David Monnin – UC Berkeley
22. Age-dependent antagonistic regulation of DAF-16 by the stress-activated MAPK KGB-1 is mediated by the microRNA mir-71
Cyrus Ruediger – UC Berkeley
23. C. elegans sperm carry a histone-based epigenetic memory of both spermatogenesis and oogenesis.
Tomoko Tabuchi – UC Santa Cruz
24. Decreasing miRNA sequencing bias using single adapter and circularization approach.
Sergio Barberan-Soler– Somageneics Inc
25. The role of environmentally-acquired gut microbes in host adaptation to environmental toxins.
Samuel Slowinski – UC Berkeley
26. Do worms dREAM of Myb?
P.J. Vorster - Stanford
27. Characterizing a nematode model of Niemann-Pick Type A disease.
Hillary Tsang – Perlara, PBC
28. C. elegans transcriptional gene modules: a new tool for analysis of gene expression data.
Katie Podshivalova - Calico
29. Induction of RNA Interference in Caenorhabditis elegans to study meiotic protein function
Rachel Segal & Makenna Clark– Cal Poly San Luis Obispo
30. Investigating Protein Expression Patterns of the Epigenetic Germline Regulator MES-4 in Caenorhabditis elegans.
Carmen Ma – UC Santa Cruz
31. Creating a reporter for 3' splice site choice distinction.
Daniel Walker – UC Santa Cruz
32. Epigenetic Mechanisms of X Chromosome Repression in Male Caenorhabditis.
Braden Larson – UC Santa Cruz
33. Sex-Specific kinetochore and phosphatase features in C. elegans sperm meiosis.
Christopher Black – San Francisco SU
34. Nanoscale structure and mechanics of skin in a C. elegans model of touch sensation.
Ehsan Rezaei - Stanford
35. The role of general transcription factors in dosage compensation
Nick Fuda - UC Berkeley
36. Katharina Papsdorf- Stanford