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PubMed Publications| Keyword search (4,163 papers available) |  |
"TRAPP" Keyword-tagged Publications:
| Title | Authors | PubMed ID | |
|---|---|---|---|
| 1 | From water to sediment: A meta-analysis of microplastic distribution and the impact of dams in reservoir ecosystems | Gao W; Zhang P; Wang H; Yang X; An C; | 41215774 ENCS |
| 2 | Prioritizing Chemical Features in Non-targeted Analysis through Spatial Trend Analysis: Application to the Identification of Organic Chemicals Subject to Mountain Cold-Trapping | Zhang X; Zhan F; Hao C; Lei YD; Wania F; | 39912640 CHEMBIOCHEM |
| 3 | A Humanized Yeast Model for Studying TRAPP Complex Mutations; Proof-of-Concept Using Variants from an Individual with a TRAPPC1-Associated Neurodevelopmental Syndrome | Zykaj E; Abboud C; Asadi P; Warsame S; Almousa H; Milev MP; Greco BM; López-Sánchez M; Bratkovic D; Kachroo AH; Pérez-Jurado LA; Sacher M; | 39273027 BIOLOGY |
| 4 | TRAPPC6B biallelic variants cause a neurodevelopmental disorder with TRAPP II and trafficking disruptions | Almousa H; Lewis SA; Bakhtiari S; Nordlie SH; Pagnozzi A; Magee H; Efthymiou S; Heim JA; Cornejo P; Zaki MS; Anwar N; Maqbool S; Rahman F; Neilson DE; Vemuri A; Jin SC; Yang XR; Heidari A; van Gassen K; Trimouille A; Thauvin-Robinet C; Liu J; Bruel AL; Tomoum H; Shata MO; Hashem MO; Toosi MB; Ghayoor Karimiani E; Yesil G; Lingappa L; Baruah D; Ebrahimzadeh F; Van-Gils J; Faivre L; Zamani M; Galehdari H; Sadeghian S; Shariati G; Mohammad R; van der Smagt J; Qari A; Vincent JB; Innes AM; Dursun A; Özgül RK; A | 37713627 BIOLOGY |
| 5 | TRAPPC11-related muscular dystrophy with hypoglycosylation of alpha-dystroglycan in skeletal muscle and brain | Munot P; McCrea N; Torelli S; Manzur A; Sewry C; Chambers D; Feng L; Ala P; Zaharieva I; Ragge N; Roper H; Marton T; Cox P; Milev MP; Liang WC; Maruyama S; Nishino I; Sacher M; Phadke R; Muntoni F; | 34648194 BIOLOGY |
| 6 | Formation of oil-particle aggregates: Impacts of mixing energy and duration | Ji W; Boufadel M; Zhao L; Robinson B; King T; An C; Zhang BH; Lee K; | 34252767 ENCS |
| 7 | TRAPPing a neurological disorder: from yeast to humans. | Lipatova Z, Van Bergen N, Stanga D, Sacher M, Christodoulou J, Segev N | 32116085 BIOLOGY |
| 8 | Mutations in TRAPPC12 Manifest in Progressive Childhood Encephalopathy and Golgi Dysfunction. | Milev MP, Grout ME, Saint-Dic D, Cheng YH, Glass IA, Hale CJ, Hanna DS, Dorschner MO, Prematilake K, Shaag A, Elpeleg O, Sacher M, Doherty D, Edvardson S | 28777934 BIOLOGY |
| 9 | TRAPPC11 and GOSR2 mutations associate with hypoglycosylation of α-dystroglycan and muscular dystrophy. | Larson AA, Baker PR, Milev MP, Press CA, Sokol RJ, Cox MO, Lekostaj JK, Stence AA, Bossler AD, Mueller JM, Prematilake K, Tadjo TF, Williams CA, Sacher M, Moore SA | 29855340 BIOLOGY |
| 10 | Bi-allelic mutations in TRAPPC2L result in a neurodevelopmental disorder and have an impact on RAB11 in fibroblasts. | Milev MP, Graziano C, Karall D, Kuper WFE, Al-Deri N, Cordelli DM, Haack TB, Danhauser K, Iuso A, Palombo F, Pippucci T, Prokisch H, Saint-Dic D, Seri M, Stanga D, Cenacchi G, van Gassen KLI, Zschocke J, Fauth C, Mayr JA, Sacher M, van Hasselt PM | 30120216 BIOLOGY |
| 11 | TRAPPopathies: An emerging set of disorders linked to variations in the genes encoding transport protein particle (TRAPP)-associated proteins. | Sacher M, Shahrzad N, Kamel H, Milev MP | 30152084 BIOLOGY |
| Title: | A Humanized Yeast Model for Studying TRAPP Complex Mutations; Proof-of-Concept Using Variants from an Individual with a TRAPPC1-Associated Neurodevelopmental Syndrome | ||||
| Authors: | Zykaj E, Abboud C, Asadi P, Warsame S, Almousa H, Milev MP, Greco BM, López-Sánchez M, Bratkovic D, Kachroo AH, Pérez-Jurado LA, Sacher M | ||||
| Link: | https://pubmed.ncbi.nlm.nih.gov/39273027/ | ||||
| DOI: | 10.3390/cells13171457 | ||||
| Publication: | Cells | ||||
| Keywords: | Golgi; TRAPP; TRAPPC1; autophagy; humanization; mutation; yeast; | ||||
| PMID: | 39273027 | Category: | Date Added: | 2024-09-14 | |
| Dept Affiliation: |
BIOLOGY
1 Department of Biology, Concordia University, Montreal, QC H4B1R6, Canada. 2 Department of Medicine and Life Sciences, Universitat Pompeu Fabra, 08003 Barcelona, Spain. 3 Hospital del Mar, Hospital del Mar Research Institute (IMIM), 08003 Barcelona, Spain. 4 Centro de Investigación Biomédica en Red de Enfermedades Raras (CIBERER), ISCIII, 28029 Madrid, Spain. 5 Women's and Children's Hospital, Metabolic Clinic, North Adelaide, SA 5006, Australia. 6 Department of Anatomy and Cell Biology, McGill University, Montreal, QC H3A 0C7, Canada. |
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Description: |
Variants in membrane trafficking proteins are known to cause rare disorders with severe symptoms. The highly conserved transport protein particle (TRAPP) complexes are key membrane trafficking regulators that are also involved in autophagy. Pathogenic genetic variants in specific TRAPP subunits are linked to neurological disorders, muscular dystrophies, and skeletal dysplasias. Characterizing these variants and their phenotypes is important for understanding the general and specialized roles of TRAPP subunits as well as for patient diagnosis. Patient-derived cells are not always available, which poses a limitation for the study of these diseases. Therefore, other systems, like the yeast Saccharomyces cerevisiae, can be used to dissect the mechanisms at the intracellular level underlying these disorders. The development of CRISPR/Cas9 technology in yeast has enabled a scar-less editing method that creates an efficient humanized yeast model. In this study, core yeast subunits were humanized by replacing them with their human orthologs, and TRAPPC1, TRAPPC2, TRAPPC2L, TRAPPC6A, and TRAPPC6B were found to successfully replace their yeast counterparts. This system was used for studying the first reported individual with an autosomal recessive disorder caused by biallelic TRAPPC1 variants, a girl with a severe neurodevelopmental disorder and myopathy. We show that the maternal variant (TRAPPC1 p.(Val121Alafs*3)) is non-functional while the paternal variant (TRAPPC1 p.(His22_Lys24del)) is conditional-lethal and affects secretion and non-selective autophagy in yeast. This parallels defects seen in fibroblasts derived from this individual which also showed membrane trafficking defects and altered Golgi morphology, all of which were rescued in the human system by wild-type TRAPPC1. This study suggests that humanized yeast can be an efficient means to study TRAPP subunit variants in the absence of human cells and can assign significance to variants of unknown significance (VUS). This study lays the foundation for characterizing further TRAPP variants through this system, rapidly contributing to disease diagnosis. |
