The Elongator complex is a multifunction protein complex which has been shown to be involved in transcriptional elongation, DNA replication and repair, tubulin and histone acetylation, gene silencing and tranfer RNA u...The Elongator complex is a multifunction protein complex which has been shown to be involved in transcriptional elongation, DNA replication and repair, tubulin and histone acetylation, gene silencing and tranfer RNA uridine modification. The composition of the Elongator complex is found to be highly conserved in eukaryotes, protein homologs of various subunits have been identified in fungi, plant, animal, and human. Remarkably, mutation in genes encoding the Elongator complex structural components all results in defects of transfer RNA wobble uridine modification, and this function of the Elongator complex is also conserved in eukaryotes. The Elongator complex mutants in higher plants have pleiotropic phenotypes including defects in vegetative growth, abiscisic acid hypersensitivity, elevated tolerance to drought and oxidative stress. What is the relationship between the Elongator complex's function in nucleoside modification and its activity in other cellular pathways? This review summarizes the recent advances in study of function of the Elongator complex, in the aspects of cell physiology and molecular biology.展开更多
BACKGROUND We described the main features of an infant diagnosed with facial dysmorphic,language failure,intellectual disability and congenital malformations to strengthen our understanding of the disease.Currently,tr...BACKGROUND We described the main features of an infant diagnosed with facial dysmorphic,language failure,intellectual disability and congenital malformations to strengthen our understanding of the disease.Currently,treatment is only rehabilitation and surgery for cleft lip and palate.CASE SUMMARY The proband was a 2-years-8-months-old girl.Familial history was negative for congenital malformations or intellectual disability.The patient had microcephaly,upward-slanting palpebral fissures,depressed nasal bridge,bulbous nose and bilateral cleft lip and palate.Brain magnetic resonance imaging showed cortical atrophy and band heterotopia.Her motor and intellectual development is delayed.A submicroscopic deletion in 11p13 involving the elongator acetyltransferase complex subunit 4 gene(ELP4)and a loss of heterozygosity in Xq25-q26.3 were detected.CONCLUSION There is no treatment for the ELP4 deletion caused by a submicroscopic 11p3 deletion.We describe a second case of deletion of the ELP4 gene without aniridia,which confirms the association between ELP4 gene with several defects and absence of this ocular defect.Additional clinical data in the deletion of the ELP4 gene as cleft palate,facial dysmorphism,and changes at level brain could be associated to this gene or be part of the effect of the recessives genes involved in the loss of heterozygosity region of Xq25-26.3.展开更多
The super elongation complex(SEC)containing positive transcription elongation factor b plays a critical role in regulating transcription elongation.AFF1 and AFF4,two members of the AF4/FMR2 family,act as central scaff...The super elongation complex(SEC)containing positive transcription elongation factor b plays a critical role in regulating transcription elongation.AFF1 and AFF4,two members of the AF4/FMR2 family,act as central scaffold proteins of SEC and are associated with various human diseases.However,their precise roles in transcriptional control remain unclear.Here,we investigate differences in the genomic distribution patterns of AFF1 and AFF4 around transcription start sites(TSSs).AFF1 mainly binds upstream of the TSS,while AFF4 is enriched downstream of the TSS.Notably,disruption of AFF4 results in slow elongation and early termination in a subset of AFF4-bound active genes,whereas AFF1 deletion leads to fast elongation and transcriptional readthrough in the same subset of genes.Additionally,AFF1 knockdown increases AFF4 levels at chromatin,and vice versa.In summary,these findings demonstrate that AFF1 and AFF4 function antagonistically to regulate RNA polymerase Ⅱ transcription.展开更多
基金supported by the National Natural Science Foundation of China (31100268 and 31270658)the Fundamental Research Funds for the Central Universities, China (2011PY108)the Scientific Research Foundation for the Returned Overseas Chinese Scholars, Ministry of Education, China
文摘The Elongator complex is a multifunction protein complex which has been shown to be involved in transcriptional elongation, DNA replication and repair, tubulin and histone acetylation, gene silencing and tranfer RNA uridine modification. The composition of the Elongator complex is found to be highly conserved in eukaryotes, protein homologs of various subunits have been identified in fungi, plant, animal, and human. Remarkably, mutation in genes encoding the Elongator complex structural components all results in defects of transfer RNA wobble uridine modification, and this function of the Elongator complex is also conserved in eukaryotes. The Elongator complex mutants in higher plants have pleiotropic phenotypes including defects in vegetative growth, abiscisic acid hypersensitivity, elevated tolerance to drought and oxidative stress. What is the relationship between the Elongator complex's function in nucleoside modification and its activity in other cellular pathways? This review summarizes the recent advances in study of function of the Elongator complex, in the aspects of cell physiology and molecular biology.
基金Supported by PAEP,2018 and PAPIIT IN219419,DGAPA,Universidad Nacional Autónoma de México,No.IN219419.
文摘BACKGROUND We described the main features of an infant diagnosed with facial dysmorphic,language failure,intellectual disability and congenital malformations to strengthen our understanding of the disease.Currently,treatment is only rehabilitation and surgery for cleft lip and palate.CASE SUMMARY The proband was a 2-years-8-months-old girl.Familial history was negative for congenital malformations or intellectual disability.The patient had microcephaly,upward-slanting palpebral fissures,depressed nasal bridge,bulbous nose and bilateral cleft lip and palate.Brain magnetic resonance imaging showed cortical atrophy and band heterotopia.Her motor and intellectual development is delayed.A submicroscopic deletion in 11p13 involving the elongator acetyltransferase complex subunit 4 gene(ELP4)and a loss of heterozygosity in Xq25-q26.3 were detected.CONCLUSION There is no treatment for the ELP4 deletion caused by a submicroscopic 11p3 deletion.We describe a second case of deletion of the ELP4 gene without aniridia,which confirms the association between ELP4 gene with several defects and absence of this ocular defect.Additional clinical data in the deletion of the ELP4 gene as cleft palate,facial dysmorphism,and changes at level brain could be associated to this gene or be part of the effect of the recessives genes involved in the loss of heterozygosity region of Xq25-26.3.
基金supported by grants from the National Key R&D Program of China(2018YFA0800100 to C.L.,2018YFA0800103 to Z.L.)the National Natural Science Foundation of China(32030017 and 31970617 to C.L.,31970626 to Z.L.)Shenzhen Science and Technology Program(JCYJ20210324133602008 to C.L.,JCYJ20210324133601005 to Z.L.).
文摘The super elongation complex(SEC)containing positive transcription elongation factor b plays a critical role in regulating transcription elongation.AFF1 and AFF4,two members of the AF4/FMR2 family,act as central scaffold proteins of SEC and are associated with various human diseases.However,their precise roles in transcriptional control remain unclear.Here,we investigate differences in the genomic distribution patterns of AFF1 and AFF4 around transcription start sites(TSSs).AFF1 mainly binds upstream of the TSS,while AFF4 is enriched downstream of the TSS.Notably,disruption of AFF4 results in slow elongation and early termination in a subset of AFF4-bound active genes,whereas AFF1 deletion leads to fast elongation and transcriptional readthrough in the same subset of genes.Additionally,AFF1 knockdown increases AFF4 levels at chromatin,and vice versa.In summary,these findings demonstrate that AFF1 and AFF4 function antagonistically to regulate RNA polymerase Ⅱ transcription.
