SNV2 / Calidi Biotherap - LARVOL DELTA

Real-time detection method for Litchi diseases and pests based on improved YOLOv5s. (PubMed, Front Plant Sci) - "To address these limitations, an improved YOLOv5s model, named YOLOv5s-SNV2-GSE, was proposed in this study for real-time detection on embedded platforms...When deployed on a Raspberry Pi 4B, the model achieved an average inference speed of 3.3 frames per second (FPS), representing a 57.1% improvement and meeting real-time detection requirements. These results indicate that the proposed model provides a practical and efficient solution for real-time Litchi pests and diseases detection in resource-constrained environments."

Journal

Influence Mechanism of Vermicompost with Different Maturity on Atrazine Catabolism and Bacterial Community. (PubMed, Toxics) - "This study investigated the influence mechanism of sterilized soil (CKs), unsterilized soil (CKn), sterilized soil amended with 45 (SsV1), 60 (SsV2), 75 (SsV3) days of vermicompost (the maturity days of vermicompost), and unsterilized soil amended with 45 (SnV1), 60 (SnV2), 75 (SnV3) days of vermicompost on atrazine catabolism...The above results showed that the best degradation of atrazine was achieved with 60 days of vermicompost addition. This study provides a new, efficient, economical, and environmentally friendly strategy for the remediation of atrazine-contaminated soil."

Journal

Homozygosity for an Abolished GATA1-Binding Site in the CR1 Gene Is Responsible for the CR1 Low-Expressing Helgeson Blood Group Phenotype (AABB 2022) - "SNV1 is very rare while the allele frequency of SNV2 better fits the Helgeson profile... We identified two functional GATA1-binding sites in CR1 and showed that a haplotype in which one site is abolished markedly decreases CR1 expression on both transcript and protein levels. We therefore propose this to be the mechanism underlying the Helgeson phenotype."

Infectious Disease • Inflammatory Arthritis • Malaria • CR1 • GATA1

Anti-mastitis SNV identification of NFκB1 in Chinese Holstein cows and the possible anti-inflammation role of NFκB1/p105 in bovine MECs. (PubMed, Acta Biochim Biophys Sin (Shanghai)) - "The association analysis showed that cows with SNV2-TT and SNV6-CC in the NFκB1 gene had significantly higher milk protein content (P < 0.05), while cows with SNV5-TT in the NFκB1 gene had significantly lower somatic cell score (SCS), but CC genotype at SNV5 locus was not detected in our Holstein cows...In addition, the anti-inflammation role of NFκB1/p105 seemed to be inhibited in LPS-induced-bovine MECs because the formation of the p50/p50 homodimer was arrested. This study provides a new perspective to understand the inflammatory mechanism in dairy mastitis."

Journal • Immunology • Inflammation • Oncology • Targeted Protein Degradation • miR-125b • TNFAIP3