Abstract
Yhc1 and U1C are homologous essential subunits of the yeast and human U1 snRNP, respectively, that are implicated in the establishment and stability of the complex of U1 bound to the pre-mRNA 5′ splice site (5′SS). Here, we conducted a mutational analysis of Yhc1, guided by the U1C NMR structure and low-resolution crystal structure of human U1 snRNP. The N-terminal 170-amino acid segment of the 231-amino acid Yhc1 polypeptide sufficed for vegetative growth. Although changing the zinc-binding residue Cys6 to alanine was lethal, alanines at zinc-binding residues Cys9, His24 and His30 were not. Benign alanine substitutions at conserved surface residues elicited mutational synergies with other splicing components. YHC1-R21A was synthetically lethal in the absence of Mud2 and synthetically sick in the absence of Nam8, Mud1 and Tgs1 or in the presence of variant U1 snRNAs. YHC1 alleles K28A, Y12A, T14A, K22A and H15A displayed a progressively narrower range of synergies. R21A and K28A bypassed the essentiality of DEAD-box protein Prp28, suggesting that they affected U1•5′SS complex stability. Yhc1 Arg21 fortifies the U1•5′SS complex via contacts with SmD3 residues Glu37/Asp38, mutations of which synergized with mud2Δ and bypassed prp28Δ. YHC1-(1-170) was synthetically lethal with mutations of all components interrogated, with the exception of Nam8.
Highlights
Yeast pre-mRNA splicing [1,2,3] begins with the formation of a complex comprising the U1 snRNP bound at the intron 50 splice site (50SS; 50-GUAUGU) and the Msl5Mud2 heterodimer engaged at the intron branchpoint (BP; 50-UACUAAC)
The Saccharomyces cerevisiae U1 snRNP consists of a trimethylguanosine (TMG)-capped 568-nt U1 snRNA, a 7-subunit Sm protein ring, and 10 protein subunits unique to the yeast U1 snRNP: Prp39, Prp40, Snu71, Snu56, Snp1, Mud1, Luc7, Prp42, Nam8 and Yhc1 [6,7,8,9]
The size differences and lack of amino acid sequence similarity between S. cerevisiae Yhc1 and human U1C distal to the N-terminal zinc-binding domain raised the prospect that the yeast and human C-termini might have diverged in parallel with the differences in U1 snRNA size and the number of U1-specific protein subunits of the respective U1 snRNPs
Summary
Yeast pre-mRNA splicing [1,2,3] begins with the formation of a complex comprising the U1 snRNP bound at the intron 50 splice site (50SS; 50-GUAUGU) and the Msl5Mud heterodimer engaged at the intron branchpoint (BP; 50-UACUAAC). Bridging interactions between the U1 snRNP and Msl5Mud stabilize the complex and prepare a scaffold for recruitment of the U2 snRNP to the branchpoint. The composition of the U1 snRNP is more complex in budding yeast than in humans [10,11,12], with respect to the size of the U1 RNA (568 versus 164 nt) and the number of U1-specific protein subunits (10 versus 3). The three human U1-specific snRNP subunits—U1-70K, U1-A and U1-C—are homologs of yeast Snp, Mud and Yhc, respectively
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