OBJECTIVE: To isolate and identify the potential binding partners of LRRK2, a gene linked to both dominant familial form and sporadic form of Parkinson's disease, thus to further our knowledge of its function. METHODS: We used a sequence containing full-length of COR domain and part of ROC and MAPKKK domain as bait. The bait amplified by polymerase chain reaction (PCR) was then cloned into a yeast expression plasmid pGBKT7. After being sequenced and analyzed, pGBKT7-bait was transformed into the yeast strain AH109. Western blot was performed to confirm the expression of pGBKT7-bait in AH109 yeast strain. Then human fetal brain cDNA library was transformed into that yeast strain, which could express pGBKT7-bait fusion protein. The yeast strain which contained pGBKT7-bait and human fetal brain cDNA library was plated on quadruple dropout medium (SD/-Trp/-Leu/-His/-Ade) containing X-alpha-gal. We retested these positive colonies using 2 independent yeast strains AH109 contained pGBKT7-bait or pGBKT7, respectively. At last, these plasmids isolated from these true positive colonies were analyzed by bioinformatics. RESULTS: We obtained 9 true positive colonies, these colonies were sequenced, and we performed sequence Blast in GenBank. Three colonies of the 9 positive colonies were not in open reading-frames. Among other 6 colonies, there were known proteins including spermatid perinuclear RNA-binding protein (STRBP) and BCL2-associated athanogene 5 isoform b (BAG5), as well as unknown proteins including tyrosine phosphatase non-receptor type (PTPN23), l(3)mbt-like 3 isoform b (L3MBTL3), RALY RNA binding protein-like isoform 1 (RALYL), and Homo sapiens mRNA for KIAA1783 protein, partial cds (KIAA1783). CONCLUSION: True positive colonies of LRRK2 are successfully obtained by the yeast 2-hybrid. Our screened proteins may provide a new research clue for revealing biological functions of LRRK2, pathogenesis of Parkinson's disease, and other neurodegerations.
OBJECTIVE: To isolate and identify the potential binding partners of LRRK2, a gene linked to both dominant familial form and sporadic form of Parkinson's disease, thus to further our knowledge of its function. METHODS: We used a sequence containing full-length of COR domain and part of ROC and MAPKKK domain as bait. The bait amplified by polymerase chain reaction (PCR) was then cloned into a yeast expression plasmid pGBKT7. After being sequenced and analyzed, pGBKT7-bait was transformed into the yeast strain AH109. Western blot was performed to confirm the expression of pGBKT7-bait in AH109 yeast strain. Then human fetal brain cDNA library was transformed into that yeast strain, which could express pGBKT7-bait fusion protein. The yeast strain which contained pGBKT7-bait and human fetal brain cDNA library was plated on quadruple dropout medium (SD/-Trp/-Leu/-His/-Ade) containing X-alpha-gal. We retested these positive colonies using 2 independent yeast strains AH109 contained pGBKT7-bait or pGBKT7, respectively. At last, these plasmids isolated from these true positive colonies were analyzed by bioinformatics. RESULTS: We obtained 9 true positive colonies, these colonies were sequenced, and we performed sequence Blast in GenBank. Three colonies of the 9 positive colonies were not in open reading-frames. Among other 6 colonies, there were known proteins including spermatid perinuclear RNA-binding protein (STRBP) and BCL2-associated athanogene 5 isoform b (BAG5), as well as unknown proteins including tyrosine phosphatase non-receptor type (PTPN23), l(3)mbt-like 3 isoform b (L3MBTL3), RALY RNA binding protein-like isoform 1 (RALYL), and Homo sapiens mRNA for KIAA1783 protein, partial cds (KIAA1783). CONCLUSION: True positive colonies of LRRK2 are successfully obtained by the yeast 2-hybrid. Our screened proteins may provide a new research clue for revealing biological functions of LRRK2, pathogenesis of Parkinson's disease, and other neurodegerations.
Authors: Justus C Dachsel; Kenya Nishioka; Carles Vilariño-Güell; Sarah J Lincoln; Alexandra I Soto-Ortolaza; Jennifer Kachergus; Kelly M Hinkle; Michael G Heckman; Barbara Jasinska-Myga; Julie P Taylor; Dennis W Dickson; Rachel A Gibson; Faycal Hentati; Owen A Ross; Matthew J Farrer Journal: Mech Ageing Dev Date: 2010-02-06 Impact factor: 5.432
Authors: Javier Alegre-Abarrategui; Helen Christian; Michele M P Lufino; Ruxandra Mutihac; Lara Lourenço Venda; Olaf Ansorge; Richard Wade-Martins Journal: Hum Mol Genet Date: 2009-07-29 Impact factor: 6.150
Authors: Kenneth Thirstrup; Justus C Dächsel; Felix S Oppermann; Douglas S Williamson; Garrick P Smith; Karina Fog; Kenneth V Christensen Journal: Sci Rep Date: 2017-08-31 Impact factor: 4.379