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- https://bio.libretexts.org/Bookshelves/Biochemistry/Fundamentals_of_Biochemistry_(Jakubowski_and_Flatt)/03%3A_Unit_III-_Information_Pathway/25%3A_RNA_Metabolism/25.01%3A_DNA-Dependent_Synthesis_of_RNAThis page provides an in-depth exploration of the fundamentals of biochemistry related to RNA, focusing on transcription processes across prokaryotic and eukaryotic systems. It delves into RNA's struc...This page provides an in-depth exploration of the fundamentals of biochemistry related to RNA, focusing on transcription processes across prokaryotic and eukaryotic systems. It delves into RNA's structural similarities and differences with DNA, elaborates on the various types of RNA (mRNA, rRNA, tRNA, and ncRNAs), and describes the roles and mechanisms of transcriptional elongation and termination.
- https://bio.libretexts.org/Bookshelves/Biochemistry/Fundamentals_of_Biochemistry_(Jakubowski_and_Flatt)/03%3A_Unit_III-_Information_Pathway/25%3A_RNA_Metabolism/25.02%3A_RNA_ProcessingThe page provides a comprehensive overview of RNA processing in eukaryotic cells, highlighting essential processes such as 5??? capping, RNA splicing, and polyadenylation. It explains RNA processing's...The page provides a comprehensive overview of RNA processing in eukaryotic cells, highlighting essential processes such as 5??? capping, RNA splicing, and polyadenylation. It explains RNA processing's role in transforming pre-mRNA into mature mRNA, promoting mRNA stability, nuclear export, and translation initiation. RNA splicing involves removing introns and linking exons with spliceosome assistance, while polyadenylation entails adding a poly-A tail for mRNA stability.
- https://bio.libretexts.org/Courses/University_of_Arkansas_Little_Rock/Genetics_BIOL3300_(Leacock)/Genetics_Textbook/02%3A_Central_Dogma/2.02%3A_RNA_processingThe splicing machinery must be able to recognize sequences that are specific to splice junctions (i.e., the end of each exon and the start of the next) in order to correctly cut out the introns and jo...The splicing machinery must be able to recognize sequences that are specific to splice junctions (i.e., the end of each exon and the start of the next) in order to correctly cut out the introns and join the exons together to make the mature, spliced mRNA. The base sequence at the start (5' or left end, also called the splice donor or donor site) of an intron is GU while the sequence at the 3' or right end (also called the splice acceptor or acceptor site) is AG.
- https://bio.libretexts.org/Courses/University_of_Massachusetts_Boston/Bio_252_254%3A_Genetics/05%3A_SPOC_V_-_Transcription_and_mRNA_Processing/5.02%3A_RNA_processingThe splicing machinery must be able to recognize sequences that are specific to splice junctions (i.e., the end of each exon and the start of the next) in order to correctly cut out the introns and jo...The splicing machinery must be able to recognize sequences that are specific to splice junctions (i.e., the end of each exon and the start of the next) in order to correctly cut out the introns and join the exons together to make the mature, spliced mRNA. The base sequence at the start (5' or left end, also called the splice donor or donor site) of an intron is GU while the sequence at the 3' or right end (also called the splice acceptor or acceptor site) is AG.
- https://bio.libretexts.org/Courses/Clinton_College/BIO_300%3A_Introduction_to_Genetics_(Neely)/02%3A_Central_Dogma/2.02%3A_RNA_processingThe splicing machinery must be able to recognize sequences that are specific to splice junctions (i.e., the end of each exon and the start of the next) in order to correctly cut out the introns and jo...The splicing machinery must be able to recognize sequences that are specific to splice junctions (i.e., the end of each exon and the start of the next) in order to correctly cut out the introns and join the exons together to make the mature, spliced mRNA. The base sequence at the start (5' or left end, also called the splice donor or donor site) of an intron is GU while the sequence at the 3' or right end (also called the splice acceptor or acceptor site) is AG.
