| First name | Last name | Poster title | Topic area | Board assigned |
| Fnu | Alisha | Characterization of Pennycress seeds engineered to synthesize Medium Chain Fatty Acids | Emerging methods for lipid research and crop design | A-1 |
| Doug | Allen | Modeling Pulse-Chase Radiolabeling Data with a User-Friendly Computational Platform to Assess Lipid Metabolism | Emerging methods for lipid research and crop design | C-1 |
| Ana Paula | Alonso | Exploring Fatty Acid Synthesis in Alternative Crops via C-Labeling Approaches | Triacylglycerol: metabolism, biosynthetic regulation and storage | EEE-1 |
| Evan | Angelos | Communication Between Chloroplasts and Endoplasmic Reticulum Through Membrane Lipid Remodeling | Lipid signaling: molecules, metabolism, mechanisms | MM-1 |
| Gaille | Antoine | | | I-2 |
| Sania Zafar | Awan | G2PDeep-v2: Web-based Deep Learning Platform for phenotype prediction and Marker Discovery in Plants and Other Species | Lipid biotechnology: oilseeds, algae, vegetative organs, emerging platforms | Y-1 |
| Jose | Aznar-Moreno | Enhancing plant tolerance to drought and heat stresses: germplasm development for sustainable production of crop plants | Plant lipids in abiotic and biotic stress resilience | MM-2 |
| Kaitlin | Bachle | Center for Biotechnology | Other | E-2 |
| Allison | Barnes | Characterization of maize membrane lipidome in a large collection of introgression lines derived from crosses between B73 and traditional maize varieties and teosintes | Plant lipids in abiotic and biotic stress resilience | NN-1 |
| Jyoti | Behera | Unraveling WRINKLED2: A Novel Player in Heart-Healthy Oil Synthesis in Avocado Mesocarp | Fatty acid and glycerolipid: biosynthesis, modification, biosynthetic evolution | L-1 |
| Ed | Cahoon | Sphingolipid Homeostasis - How Do Cells Know When Enough is Enough? | Extra-plastidic membrane lipids: phospholipids, sterols, sphingolipids | F-1 |
| Marta | Carletti | The Seipin protein of Phaeodactylum tricornutum: structure and function specificties | Triacylglycerol: metabolism, biosynthetic regulation and storage | EEE-2 |
| Yen Oh | Chan | A Comprehensive Suite of Tools for Allele Discovery and Phenotype Improvement in SoyKB and KBCommons Frameworks for Crops | Lipid biotechnology: oilseeds, algae, vegetative organs, emerging platforms | GG-2 |
| Keting | Chen | Characterization of the gene networks underlying cuticular wax production in maize silks via systems' biology approaches | Surface lipids: biosynthesis and regulation of plant protection | AAA-1 |
| Gavin | Chen | Identification of gene combinations for improving seed oil and protein contents | Lipid biotechnology: oilseeds, algae, vegetative organs, emerging platforms | Y-2 |
| Grace | Chen | Arabidopsis SEIPIN1 reduces rubber particle size in guayule | Lipid biotechnology: oilseeds, algae, vegetative organs, emerging platforms | Z-1 |
| Agasthya Baby | Chenna Prakash | Evaluation of hte role of Camelina sativa SDP1 on the accumulation of total oil and MCFA in engineered lines | Lipid biotechnology: oilseeds, algae, vegetative organs, emerging platforms | Z-2 |
| Jeongho | Choi | Identification of a receptor-like kinases, which positively regulates the biosynthesis of extracellular lipids in Arabidopsis | Surface lipids: biosynthesis and regulation of plant protection | AAA-2 |
| Mi | Chung Suh | ATP-BINDING CASSETTE G23 contributes to the transport of suberin monomers in Arabidopsis seed coats | Surface lipids: biosynthesis and regulation of plant protection | BBB-2 |
| Alyssa | Clews | Uncovering a chloroplast lipase interactome in Arabidopsis thaliana via TurboID-proximity labelling | Plastidic lipids: glycolipids, phospholipids, isoprenoids | VV-1 |
| Jacob | Coward | Exploring Chemical Diversity in Brassica carinata Epicuticular Wax | Surface lipids: biosynthesis and regulation of plant protection | BBB-1 |
| Sabin | Dahal | Redesigned KBCommons - v2.0 framework for enhanced multi-omics data inegration and visualization for diverse organisms | Emerging methods for lipid research and crop design | A-2 |
| Samuel | Decker | Genomic Resources to Understand Genetic Mechanisms of Oil Biosynthesis in Camelina Sativa | Fatty acid and glycerolipid: biosynthesis, modification, biosynthetic evolution | L-2 |
| Kamil | Demski | Towards Effective Production of Wax Esters with Medium-Chain Fatty Acyl and Fatty Alcohol Moieties in Seeds of Transgenic Crops | Lipid biotechnology: oilseeds, algae, vegetative organs, emerging platforms | AA-1 |
| Shannon | Donnelly | Non-Photochemical Quenching in PLASTOGLOBULAR PROTEIN 18 (PG18) | Plant lipids in abiotic and biotic stress resilience | NN-2 |
| Timothy | Durrett | Complete Remodeling of TAG Composition to Generate Novel Oils in Transgenic Oilseeds | Lipid biotechnology: oilseeds, algae, vegetative organs, emerging platforms | AA-2 |
| Yasmeen | Elharis | Lipid Analysis of Physaria fendleri for Improving Hydroxy Fatty Acide Production | Fatty acid and glycerolipid: biosynthesis, modification, biosynthetic evolution | M-1 |
| Jillian | Fan | Lack of transient starch accumulation promotes nighttime triacylglycerol degradation in Arabidopsis leaves | Triacylglycerol: metabolism, biosynthetic regulation and storage | LLL-1 |
| Emma | Fitzgibbons | Characterizing and Manipulating Sorghum Kernel Wax as a Possible Replacement for Carnauba Wax | Lipid biotechnology: oilseeds, algae, vegetative organs, emerging platforms | BB-1 |
| Matthew | Garrison Garneau | Exploring lipid metabolism through isotropic tracing of cultured embryos: Implicatoins for the engineering of Camelina and Related Crop Plants | Triacylglycerol: metabolism, biosynthetic regulation and storage | FFF-1 |
| Marina | Gavilanes-Ruiz | Sphingolipid Imbalance Produces an Increase in the Activity of the Plasma Membrane H+-ATPase from Arabidopsis Seedlings | Extra-plastidic membrane lipids: phospholipids, sterols, sphingolipids | F-2 |
| Abdul | Ghani | Integrated Multi-omics and Cross-species Analytics for Sustainable Brassicaceae Biofuels and Bioproduct | Fatty acid and glycerolipid: biosynthesis, modification, biosynthetic evolution | M-2 |
| Ariadna | Gonzalez Solis | Studying the role of sphingolipids in membrane trafficking and plasma membrane dynamics in plants | Extra-plastidic membrane lipids: phospholipids, sterols, sphingolipids | G-1 |
| Kathrina | Guthbrod | Mass Spectrometry-Based Identification of Triacylglycerol and Isoprenoid Esters Produced by Cyanobacaterial Acyltransferases | Plastidic lipids: glycolipids, phospholipids, isoprenoids | VV-2 |
| Tomoko | Hatanaka | A specific Amino Acid Residue Increases Activity of Higher PLant DGAT1 | Triacylglycerol: metabolism, biosynthetic regulation and storage | FFF-2 |
| Emily | Herrell | Structural and Functional Characteristics of Two Fatty Acid Amide Hydrolase Isoforms in the Legume Model, Medicago truncatula G | Lipid signaling: molecules, metabolism, mechanisms | JJ-2 |
| Patrick | Horn | Elucidating Cyclic Fatty Acid Biosynthesis and Compartmentalization in Cotton | Fatty acid and glycerolipid: biosynthesis, modification, biosynthetic evolution | N-1 |
| Dongxin | Huai | Enhancing peanut nutritional quality by editing AhKCS genes lacking natural variation | Lipid biotechnology: oilseeds, algae, vegetative organs, emerging platforms | BB-2 |
| Liu | Huazhen | Systemic signaling in plants; from chemicals to cuticle | Surface lipids: biosynthesis and regulation of plant protection | CCC-1 |
| Deborah | Ighalo | Transcriptional Regulation of Oil Biosynthesis genes in Arabidopsis Seed tissue Induced by Avocado WRINKLED2 | Triacylglycerol: metabolism, biosynthetic regulation, and storage | II-2 |
| Deborah | Ighalo | Transcriptional Regulation of Oil Biosynthesis genes in Arabidopsis Seed tissue Induced by Avocado WRINKLED2 | Triacylglycerol: metabolism, biosynthetic regulation and storage | LLL2 |
| Hiro | Imai | Characterization of 4-unsaturated sphingolipid long-chain bases in Lotus japonicus | Extra-plastidic membrane lipids: phospholipids, sterols, sphingolipids | G-2 |
| Toshiki | Ishikawa | Metabolic Profiling and Genetic Screening of Enzymatic Degradation of Glycosylinositolphosphoceramide | Extra-plastidic membrane lipids: phospholipids, sterols, sphingolipids | H-1 |
| Volodymyr | Kavetskyi | Deciphering the mechanism of environmental regulations of Class IV HD-Zip transcription factors | Lipid signaling: molecules, metabolism, mechanisms | KK-1 |
| Hyojin | Kim | "Nature-Guided Strategies to Maximize Astaxanthin Production and Purity in Camelina Oil for Aquaculture Feed and High-Value Food Applications" | Plastidic lipids: glycolipids, phospholipids, isoprenoids | WW-1 |
| George | Kipkoech | Metabolic Engineering of Physcomitrium patens (moss) for Oleic Acid-rich Vegetable Oil Production | Triacylglycerol: metabolism, biosynthetic regulation, and storage | JJ-1 |
| Que | Kong | Phase separation of a MYB transcription factor mediates seed oil biosynthesis in Arabidopsis | Fatty acid and glycerolipid: biosynthesis, modification, biosynthetic evolution | N-2 |
| Dylan | Kosma | Biosynthesis of Falcarin-Type Polyacetylenic Lipids | Fatty acid and glycerolipid: biosynthesis, modification, biosynthetic evolution | O-1 |
| Evelyn | Kulesza | Natural variation in triglyceride adn diglyceride composition impacts thermal traits of cocoa butter | Triacylglycerol: metabolism, biosynthetic regulation and storage | GGG-1 |
| Pritha | Kundu | Deciphering the role of host lipids in sorghum-aphid interactions | Plant lipids in abiotic and biotic stress resilience | OO-1 |
| Tatsushi | Kurokawa | Galactolipids Regulate Systemic Immunity In Plants | Plant lipids in abiotic and biotic stress resilience | OO-2 |
| Evan | LaBrant | Candidate Membrane Lipid Trafficking Proteins Located at Membrane Contact Sites Between Chloroplast Inner Envelope and Thylakoid Membranes | Trafficking of lipids among cells and tissues | DDD-1 |
| Jordan | LaChance | Unraveling Metabolic Patterns in Developing Physaria fendleri Embryos, a Promising Alternative Oilseed Crop Rich in Hydroxy Fatty Acids. | Fatty acid and glycerolipid: biosynthesis, modification, biosynthetic evolution | O-2 |
| Ida | Lager | The Interplay of Diacylglycerol Acyltransferases and Phosphatidylcholine:diacylglycerol Cholinephosphotransferases Facilitates High Hydroxy Fatty Acyls Content in Triacylglycerols | Fatty acid and glycerolipid: biosynthesis, modification, biosynthetic evolution | P-1 |
| Madison | Lane | Characterization of Transcription Factors that Putatively Regulate Cuticle Synthesis on Maize Silks | Surface lipids: biosynthesis and regulation of plant protection | SS-2 |
| Maneesh | Lingwan | Elucidating Fatty Acide Biosynthesis and Turnover in Camelina Seeds that Produce Medium Chain-Containing Lipids | Fatty acid and glycerolipid: biosynthesis, modification, biosynthetic evolution | W-1 |
| Maneesh | Lingwan | Systems-Level Analysis of Extreme Differences in Fatty Acid Chain-Length Production: Natural Variants and Re-Designed Brassicaceae Oilseeds | Fatty acid and glycerolipid: biosynthesis, modification, biosynthetic evolution | W-2 |
| Hui | Liu | The role of TOR Sensor Kinase in the Regulation of Lipid Synthesis | Fatty acid and glycerolipid: biosynthesis, modification, biosynthetic evolution | Q-1 |
| Chunyang | Lu | Improving plant cell type annotation for scRNA-seq data by utilizing deep-learning-model based approaches | Fatty acid and glycerolipid: biosynthesis, modification, biosynthetic evolution | Q-2 |
| Zolian Zoong | Lwe | AT1G78690 mutants display altered cardiolipin remodeling akin to mutations in TAFAZZIN | Plastidic lipids: glycolipids, phospholipids, isoprenoids | WW-2 |
| Jose Manual | Martinez Rivas | Increasing Triacylglycerol and Vitamin E Content to Improve the Production nd Nutritional Quality of the Virgin Olive Oil | Triacylglycerol: metabolism, biosynthetic regulation and storage | GGG-2 |
| Sean | McGuire | The first intron of DGAT1 regulates temporal expression and enables complementation of the lethal dgat1/pdat1 mutant with foreign DGATs | Triacylglycerol: metabolism, biosynthetic regulation and storage | HHH-1 |
| Louise | Michaelson | Interrogating Camelina sativa seed developmental transcriptomic data sets to decipher the impact of Omega-3 fatty acid metabolic engineering | Fatty acid and glycerolipid: biosynthesis, modification, biosynthetic evolution | R-1 |
| Daniela | Morales-Sanchez | Photoprotective mechanism under high light intensity conducted by the up-regulation of the violaxanthin cycle and photopigment accumulation in the polar Chlamydomonas sp. RCC2488 malina | Lipid biotechnology: oilseeds, algae, vegetative organs, emerging platforms | CC-1 |
| Daniela | Morales-Sanchez | Polyunsaturated fatty acid production from the polar marine microalga Chlamydomonas sp. RCC2488 malina using potato peel hydrolysates in mixotrophic conditions | Lipid biotechnology: oilseeds, algae, vegetative organs, emerging platforms | CC-2 |
| Stewart | Morley | Expression of malic enzyme reveals subcellular carbon partitioning for storage reserve production in soybeans | Triacylglycerol: metabolism, biosynthetic regulation and storage | K-1, K-2 |
| Batoul | Moubarak | Structural basis for donor sugar specificity in a plant galactolipid synthase | Plastidic lipids: glycolipids, phospholipids, isoprenoids | XX-1 |
| Yosia | Mugume | | | |
| Thiya | Mukherjee | Customizing carbon partitioning: A pathway to enhance soybean seed value and yield | Lipid biotechnology: oilseeds, algae, vegetative organs, emerging platforms | HH-1, HH-2 |
| Timothy | Nicodemus | Identification of Chloroplast Localized Peroxidase Activity by Low Carbon Inducible Gene 2 (LCI2) Reveals Interface Between Photocatalyzed ROS Sensing and Chloroplast Lipid Metabolism | Lipid signaling: molecules, metabolism, mechanisms | LL-1 |
| Cory | Nykiforuk | Core Factors: where lipid droplet biogenesis intersects biotechnology | Lipid biotechnology: oilseeds, algae, vegetative organs, emerging platforms | DD-2 |
| Abraham | Osinuga | Embracing Variability in Dynamic Metabolic Modeling: Novel Insights into Arbidopsis thaliana's Sphingolipid Biosynthesis | Extra-plastidic membrane lipids: phospholipids, sterols, sphingolipids | H-2 |
| Prasad | Parchuri | Deciphering diacylglycerol enantiomer specificities of DGAT isoforms: Insights into TAG remodeling in lipid metabolism of different species | Lipid biotechnology: oilseeds, algae, vegetative organs, emerging platforms | EE-1 |
| Kiyoul | Park | Development and field evaluation of oil sorghum for sustainable bioenergy production | Lipid biotechnology: oilseeds, algae, vegetative organs, emerging platforms | EE-2 |
| Katrin | Philippar | Degradation of FATTY ACID EXPORT PROTEIN 1 by RHOMBOID-LIKE PROTEASE 11 contributes to cold tolerance in Arbidopsis | Plant lipids in abiotic and biotic stress resilience | PP-1 |
| Rajeev | Ranjan | Unveiling Novel Transcription Factors Orchestrating Lipid Biosynthesis in Seeds | Fatty acid and glycerolipid: biosynthesis, modification, biosynthetic evolution | R-2 |
| Noemi | Ruiz | Characterizing SYT6, a lipid transfer protein at the secretory pathway | Fatty acid and glycerolipid: biosynthesis, modification, biosynthetic evolution | S-1 |
| Sarah | Salomon | Betaine Lipids production in higher plants | Fatty acid and glycerolipid: biosynthesis, modification, biosynthetic evolution | S-2 |
| Sanju | Sanjaya | How Aquatic Plants Develop Tolerance to Heavy Metal Toxicity | Plant lipids in abiotic and biotic stress resilience | PP-2 |
| Malarvizhi | Sathasivam | Lipid Remodeling as a Heat Tolerance Mechanism in Soybean | | LL-2 |
| Jorg | Schwender | Co-expression of WRI1 and DGAT1 Increases Seed Oil Content in Pennycress | Triacylglycerol: metabolism, biosynthetic regulation and storage | III-1 |
| John | Sedbrook | Pennycress (Thlaspi arvense L.) seed size mutants affect seed oil and protein accumulation differently | Lipid biotechnology: oilseeds, algae, vegetative organs, emerging platforms | FF-1 |
| Yannick | Seres | Characterization of digalactosyldiacylglycerol synthases in the model diatrom Phaeodactylum tricornutum | Fatty acid and glycerolipid: biosynthesis, modification, biosynthetic evolution | T-1 |
| Jyoti | Shah | Plant-derived oxylipins facilitate infection by Fusarium graminearum, the causal agent of Fusarium head blight in wheat | Plant lipids in abiotic and biotic stress resilience | QQ-1 |
| Wenhao | Shen | Genomic and transcriptomic insights into adaptation of soybean lipid metabolism genes under environmental stresses | Emerging methods for lipid research and crop design | C-2 |
| Jay | Shockey | Beyond FAD2: Towards a Better Understanding of the Genetics of Non-GMO High-Oleate Cottonseed Oil | Triacylglycerol: metabolism, biosynthetic regulation and storage | III-2 |
| Paliav | Singh | scINTGrate: Interactive Multiomics Data Analytics, Inference and Visualization Portal | Emerging methods for lipid research and crop design | B-1 |
| Cailin | Smith | Intraorganellar Membrane Contact Sites May Facilitate Synthesis of Photosynthetic Membranes | Trafficking of lipids among cells and tissues | DDD-2 |
| Manish | Sridhar Immadi | SoyHub - A hub for soybean-applied genomics prediction tools based on diverse soybean re-sequenced accessions | Emerging methods for lipid research and crop design | D-1 |
| Mi Chung | Suh | Small RNA-mediated regulation of cuticular wax biosynthesis in Arabidopsis | | CCC-2 |
| Kaiwen | Sun | Biosynthetic mechanisms of omega-3 polyunsaturated fatty acids in microalgae | Fatty acid and glycerolipid: biosynthesis, modification, biosynthetic evolution | T-2 |
| Febri | Susanto | Unveiling a Newly Characterized Plastoglobules-Localized Lipase 1 (PLL1) in Arabidopsis thaliana: Its Role in Abiotic Stress Tolerance, Male Sterility, and Jasmonic Acid Biosynthesis | Plant lipids in abiotic and biotic stress resilience | QQ-2 |
| Xiao-Li | Tan | A new cold tolerant germination rapeseed germplasm is associated with linolenic acid derived JA | Plant lipids in abiotic and biotic stress resilience | RR-1 |
| Shan | Tang | Transcriptional Regulation of TAG Degradation by PHL7-PA Interaction in Seed Development | Triacylglycerol: metabolism, biosynthetic regulation and storage | JJJ-1 |
| Jithesh | Vijayan | Nitrogen starvation leades to TOR kinase-mediated downregulation of fatty acide synthesis in the algae Chlorella sorokiniana and chlamydomonas reinhardtii | Fatty acid and glycerolipid: biosynthesis, modification, biosynthetic evolution | U-1 |
| Ana Carolina | Vilchez | Biophysical Properties of Lipid Membranes from Barley Roots during Low-Temperature Expose and Recovery | Plant lipids in abiotic and biotic stress resilience | RR-2 |
| Jaruswan | Warakanont | SAD, FAD5a and FAD6 dependent fatty acid desaturation in Chlamydomonas grown under copper deficiency | Fatty acid and glycerolipid: biosynthesis, modification, biosynthetic evolution | U-2 |
| Dexter | White | Genetic Research on Camelina: CRISPR/Cas9-mediated gene editing to enhance seed oil in cover crops | Lipid biotechnology: oilseeds, algae, vegetative organs, emerging platforms | FF-2 |
| P.A.D. Bas | Wickramsinghe | Identifying the genes associated with high levels of medium-chain fatty acides (MCFAs) in Chinese elm (Ulmus parvifolia) | Triacylglycerol: metabolism, biosynthetic regulation and storage | JJJ-2 |
| Qiong | Xiao | Genome-wide characterization of plant CTP: phosphocholine cytidylyltransferases through evolutionary, biochemical and structural analysis | Extra-plastidic membrane lipids: phospholipids, sterols, sphingolipids | I-1 |
| Tingyuan | Xiao | Identification of Seed Specific Promoters with A Range of Expression Strengths | Fatty acid and glycerolipid: biosynthesis, modification, biosynthetic evolution | V-1 |
| Chunhui | Xu | FatPlants: A Comprehensive Information System for Lipid-Related Genes and Metabolic Pathways in Plants | Emerging methods for lipid research and crop design | D-2 |
| Changcheng | Xu | Isolation and characterization of Arabidopsis Mutants affecting Lipid Droplet accumulation in leaves | Triacylglycerol: metabolism, biosynthetic regulation and storage | KKK-1 |
| Shuaibing | Yao | Lipid phosphorylation by a diacylglycerol kinase suppresses ABA biosynthesis to regulate plant stress responses | Lipid signaling: molecules, metabolism, mechanisms | KK-2 |
| Nan | Yao | Recent progress in understanding the role of Sphinganine C4-monooxygenase 1 (SBH1) in acd5 mediated cell deat | Plant lipids in abiotic and biotic stress resilience | SS-1 |
| Akiko | Yoshihara | The relationship between two bilayer-forming glycolipids DGDG and SQDG in the thylakoid membrane | Plastidic lipids: glycolipids, phospholipids, isoprenoids | XX-2 |
| Xiaohong | Yu | Creating yellow-seed Camelina sativa with enhanced oil accumulation by CRISPR-mediated disruption of Transparent Testa 8 | Triacylglycerol: metabolism, biosynthetic regulation and storage | KKK-2 |
| Jiahong | Zhou | SIMPEL 2.0: Automating Untargeted Isotope Labeling Analysis and Pathway Elucidation | Emerging methods for lipid research and crop design | B-2 |
| Ross | Zirkle | Novel sources of docosapentaenoic acid n-3 DPA | Lipid biotechnology: oilseeds, algae, vegetative organs, emerging platforms | GG-1 |
| Li-Hua Zhu/Oliver Moss | Improving the seedcake quality of rapeseed by using RNP-mediated CRISPR gene editing | Emerging methods for lipid research and crop design | E-1 |
| Fangyi | Li | | | P-1 |
| Dirk | Winklelman | | | V-2 |
| Mi Chung | Suh | | | X-1 |
| J. Roberto | Nascinmento | | | X-2 |
| Mohit | Verma | | | |