Base by Base explores advances in genetics and genomics, with a focus on gene-disease associations, variant interpretation, protein structure, and insights from exome and genome sequencing. Each episode breaks down key studies and their clinical relevance—one base at a time.
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Base by Base explores advances in genetics and genomics, with a focus on gene-disease associations, variant interpretation, protein structure, and insights from exome and genome sequencing. Each episode breaks down key studies and their clinical relevance—one base at a time.
Powered by AI, Base by Base offers a new way to learn on the go. Special thanks to authors who publish under CC BY 4.0, making open-access science faster to share and easier to explore.
181: Creatine Transporter SLC6A8: Conservation and Variant Impact
Base by Base
12 minutes 44 seconds
1 week ago
181: Creatine Transporter SLC6A8: Conservation and Variant Impact
️ Episode 181: Creatine Transporter SLC6A8: Conservation and Variant Impact
In this episode of PaperCast Base by Base, we explore how the creatine transporter gene SLC6A8 (CRT1) is evolutionarily conserved across terrestrial mammals and how disease-associated variants alter creatine uptake in vitro, shedding light on genotype–phenotype relationships in creatine transporter deficiency. fileciteturn0file0
Study Highlights:The authors compared CRT1 amino acid sequences among multiple species and found striking conservation, with human transmembrane domains 1–10 identical across the mammals analyzed and most interspecies differences confined to terminal or loop regions. They curated benign and pathogenic missense variants from public databases and mapped them onto CRT1, observing that missense changes in N‑ and C‑termini are more often tolerated, whereas variants within core transmembrane domains and specific loop regions are frequently pathogenic. Functional assays in transfected cells demonstrated that eight of nine tested patient variants—most located in transmembrane segments—caused severe reductions in creatine transport, while a peripheral extracellular loop variant produced a more modest decrease. Integrating intolerance profiling with phylogenetic and experimental data, the study highlights a hotspot between amino acids 305–415 and underscores strong structural constraints that shape CRT1 function.
Conclusion:Together, these results provide a practical framework for interpreting SLC6A8 variants in the clinic and suggest that domain-aware assessments can better predict which alterations are likely to impair creatine transport and contribute to neurodevelopmental disease.
Reference:Diep T, Lipshutz GS. Evaluation of SLC6A8 species conservation and the effect of pathogenic variants on creatine transport. Human Genetics and Genomics Advances. 2025;6:100489. https://doi.org/10.1016/j.xhgg.2025.100489
License:This episode is based on an open-access article published under the Creative Commons Attribution 4.0 International License (CC BY 4.0) – https://creativecommons.org/licenses/by/4.0/
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Base by Base
Base by Base explores advances in genetics and genomics, with a focus on gene-disease associations, variant interpretation, protein structure, and insights from exome and genome sequencing. Each episode breaks down key studies and their clinical relevance—one base at a time.
Powered by AI, Base by Base offers a new way to learn on the go. Special thanks to authors who publish under CC BY 4.0, making open-access science faster to share and easier to explore.
