Special thanks to other essential team members, Francisco Panzera, Teresa Palomeque, and Francisco Ruiz-Ruano— without whose help this paper would not have been possible.
July 2, 2025 at 1:22 AM
Special thanks to other essential team members, Francisco Panzera, Teresa Palomeque, and Francisco Ruiz-Ruano— without whose help this paper would not have been possible.
Our study sheds light on how repetitive DNA, especially satellite DNA, helps shape their chromosome evolution.
Understanding genome structure and chromosome evolution in vectors like Triatoma is key to uncovering their biology, evolution, and potential vulnerabilities.
Understanding genome structure and chromosome evolution in vectors like Triatoma is key to uncovering their biology, evolution, and potential vulnerabilities.
July 2, 2025 at 1:22 AM
Our study sheds light on how repetitive DNA, especially satellite DNA, helps shape their chromosome evolution.
Understanding genome structure and chromosome evolution in vectors like Triatoma is key to uncovering their biology, evolution, and potential vulnerabilities.
Understanding genome structure and chromosome evolution in vectors like Triatoma is key to uncovering their biology, evolution, and potential vulnerabilities.
Using #cytogenomics, we investigated the karyotype evolution of Triatoma rubrofasciata, a vector of Chagas disease.
We still know little about the genomic features behind the #holocentric chromosomes and their remarkable karyotype diversity.
We still know little about the genomic features behind the #holocentric chromosomes and their remarkable karyotype diversity.
July 2, 2025 at 1:22 AM
Using #cytogenomics, we investigated the karyotype evolution of Triatoma rubrofasciata, a vector of Chagas disease.
We still know little about the genomic features behind the #holocentric chromosomes and their remarkable karyotype diversity.
We still know little about the genomic features behind the #holocentric chromosomes and their remarkable karyotype diversity.
The paper is available here for 50 days:
kwnsfk27.r.eu-west-1.awstrack.me/L0/https:%2F...
kwnsfk27.r.eu-west-1.awstrack.me/L0/https:%2F...
kwnsfk27.r.eu-west-1.awstrack.me
February 6, 2025 at 9:59 PM
The paper is available here for 50 days:
kwnsfk27.r.eu-west-1.awstrack.me/L0/https:%2F...
kwnsfk27.r.eu-west-1.awstrack.me/L0/https:%2F...
📖 Case studies like Anopheles gambiae 🦟 and Drosophila melanogaster 🪰 show how genomics tracks evolutionary changes. Advances in 🧬 population genomics, SNPs, and structural variants are shaping insect research, with big impacts on 🌱 pest control & 🦋 conservation!
February 6, 2025 at 9:59 PM
📖 Case studies like Anopheles gambiae 🦟 and Drosophila melanogaster 🪰 show how genomics tracks evolutionary changes. Advances in 🧬 population genomics, SNPs, and structural variants are shaping insect research, with big impacts on 🌱 pest control & 🦋 conservation!
🔬 Genomic tools are transforming our understanding of insect adaptation! From de novo genome assemblies to third-gen sequencing, we explore how these technologies help uncover genetic mechanisms behind 🦟 insecticide resistance, 🌍 climate adaptation, and 🧬 speciation.
February 6, 2025 at 9:59 PM
🔬 Genomic tools are transforming our understanding of insect adaptation! From de novo genome assemblies to third-gen sequencing, we explore how these technologies help uncover genetic mechanisms behind 🦟 insecticide resistance, 🌍 climate adaptation, and 🧬 speciation.
For those into genomics, evolution, or vector biology, this chapter provides an overview of the genomic landscape of Triatominae and its relevance to studying Chagas disease. Check it out! 📖🔬
January 29, 2025 at 5:54 PM
For those into genomics, evolution, or vector biology, this chapter provides an overview of the genomic landscape of Triatominae and its relevance to studying Chagas disease. Check it out! 📖🔬
We also discuss challenges like insecticide resistance and how genomic insights can contribute to understanding these vectors and improving control strategies for Chagas disease. 🔍🩺
January 29, 2025 at 5:54 PM
We also discuss challenges like insecticide resistance and how genomic insights can contribute to understanding these vectors and improving control strategies for Chagas disease. 🔍🩺
The chapter explores the genomics of Triatominae, their adaptations to blood-feeding, their role as Chagas disease vectors, and how genomic tools uncover their evolution, diversity, and population dynamics. 🧬
January 29, 2025 at 5:54 PM
The chapter explores the genomics of Triatominae, their adaptations to blood-feeding, their role as Chagas disease vectors, and how genomic tools uncover their evolution, diversity, and population dynamics. 🧬