 Connection
Thomas Cech to RNA Precursors
This is a "connection" page, showing publications Thomas Cech has written about RNA Precursors.
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Connection Strength |
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3.735 |
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Song J, Gooding AR, Hemphill WO, Love BD, Robertson A, Yao L, Zon LI, North TE, Kasinath V, Cech TR. Structural basis for inactivation of PRC2 by G-quadruplex RNA. Science. 2023 09 22; 381(6664):1331-1337.
Score: 0.822
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Goldfarb KC, Cech TR. Targeted CRISPR disruption reveals a role for RNase MRP RNA in human preribosomal RNA processing. Genes Dev. 2017 01 01; 31(1):59-71.
Score: 0.516
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Hagen M, Cech TR. Self-splicing of the Tetrahymena intron from mRNA in mammalian cells. EMBO J. 1999 Nov 15; 18(22):6491-500.
Score: 0.157
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Golden BL, Cech TR. Conformational switches involved in orchestrating the successive steps of group I RNA splicing. Biochemistry. 1996 Mar 26; 35(12):3754-63.
Score: 0.122
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Tanner M, Cech T. Activity and thermostability of the small self-splicing group I intron in the pre-tRNA(lle) of the purple bacterium Azoarcus. RNA. 1996 Jan; 2(1):74-83.
Score: 0.120
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Zaug AJ, D?vila-Aponte JA, Cech TR. Catalysis of RNA cleavage by a ribozyme derived from the group I intron of Anabaena pre-tRNA(Leu). Biochemistry. 1994 Dec 13; 33(49):14935-47.
Score: 0.112
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Murphy FL, Cech TR. GAAA tetraloop and conserved bulge stabilize tertiary structure of a group I intron domain. J Mol Biol. 1994 Feb 11; 236(1):49-63.
Score: 0.106
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Herschlag D, Eckstein F, Cech TR. Contributions of 2'-hydroxyl groups of the RNA substrate to binding and catalysis by the Tetrahymena ribozyme. An energetic picture of an active site composed of RNA. Biochemistry. 1993 Aug 17; 32(32):8299-311.
Score: 0.102
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Herschlag D, Eckstein F, Cech TR. The importance of being ribose at the cleavage site in the Tetrahymena ribozyme reaction. Biochemistry. 1993 Aug 17; 32(32):8312-21.
Score: 0.102
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Zaug AJ, McEvoy MM, Cech TR. Self-splicing of the group I intron from Anabaena pre-tRNA: requirement for base-pairing of the exons in the anticodon stem. Biochemistry. 1993 Aug 10; 32(31):7946-53.
Score: 0.102
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Ishikawa F, Matunis MJ, Dreyfuss G, Cech TR. Nuclear proteins that bind the pre-mRNA 3' splice site sequence r(UUAG/G) and the human telomeric DNA sequence d(TTAGGG)n. Mol Cell Biol. 1993 Jul; 13(7):4301-10.
Score: 0.101
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Heuer TS, Chandry PS, Belfort M, Celander DW, Cech TR. Folding of group I introns from bacteriophage T4 involves internalization of the catalytic core. Proc Natl Acad Sci U S A. 1991 Dec 15; 88(24):11105-9.
Score: 0.091
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D?vila-Aponte JA, Huss VA, Sogin ML, Cech TR. A self-splicing group I intron in the nuclear pre-rRNA of the green alga, Ankistrodesmus stipitatus. Nucleic Acids Res. 1991 Aug 25; 19(16):4429-36.
Score: 0.089
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Herschlag D, Cech TR. Catalysis of RNA cleavage by the Tetrahymena thermophila ribozyme. 1. Kinetic description of the reaction of an RNA substrate complementary to the active site. Biochemistry. 1990 Nov 06; 29(44):10159-71.
Score: 0.084
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Herschlag D, Cech TR. Catalysis of RNA cleavage by the Tetrahymena thermophila ribozyme. 2. Kinetic description of the reaction of an RNA substrate that forms a mismatch at the active site. Biochemistry. 1990 Nov 06; 29(44):10172-80.
Score: 0.084
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Latham JA, Zaug AJ, Cech TR. Self-splicing and enzymatic cleavage of RNA by a group I intervening sequence. Methods Enzymol. 1990; 181:558-69.
Score: 0.079
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Grosshans CA, Cech TR. Metal ion requirements for sequence-specific endoribonuclease activity of the Tetrahymena ribozyme. Biochemistry. 1989 Aug 22; 28(17):6888-94.
Score: 0.077
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McSwiggen JA, Cech TR. Stereochemistry of RNA cleavage by the Tetrahymena ribozyme and evidence that the chemical step is not rate-limiting. Science. 1989 May 12; 244(4905):679-83.
Score: 0.076
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Price JV, Cech TR. Determinants of the 3' splice site for self-splicing of the Tetrahymena pre-rRNA. Genes Dev. 1988 Nov; 2(11):1439-47.
Score: 0.073
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Zaug AJ, Cech TR. Self-splicing RNA and an RNA enzyme in Tetrahymena. J Protozool. 1987 Nov; 34(4):416-7.
Score: 0.068
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Price JV, Engberg J, Cech TR. 5' exon requirement for self-splicing of the Tetrahymena thermophila pre-ribosomal RNA and identification of a cryptic 5' splice site in the 3' exon. J Mol Biol. 1987 Jul 05; 196(1):49-60.
Score: 0.067
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Guo F, Cech TR. In vivo selection of better self-splicing introns in Escherichia coli: the role of the P1 extension helix of the Tetrahymena intron. RNA. 2002 May; 8(5):647-58.
Score: 0.047
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Dumbovic G, Braunschweig U, Langner HK, Smallegan M, Biayna J, Hass EP, Jastrzebska K, Blencowe B, Cech TR, Caruthers MH, Rinn JL. Nuclear compartmentalization of TERT mRNA and TUG1 lncRNA is driven by intron retention. Nat Commun. 2021 06 03; 12(1):3308.
Score: 0.044
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Jabri E, Aigner S, Cech TR. Kinetic and secondary structure analysis of Naegleria andersoni GIR1, a group I ribozyme whose putative biological function is site-specific hydrolysis. Biochemistry. 1997 Dec 23; 36(51):16345-54.
Score: 0.035
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Tanner MA, Anderson EM, Gutell RR, Cech TR. Mutagenesis and comparative sequence analysis of a base triple joining the two domains of group I ribozymes. RNA. 1997 Sep; 3(9):1037-51.
Score: 0.034
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Downs WD, Cech TR. A tertiary interaction in the Tetrahymena intron contributes to selection of the 5' splice site. Genes Dev. 1994 May 15; 8(10):1198-211.
Score: 0.027
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Cech TR, Damberger SH, Gutell RR. Representation of the secondary and tertiary structure of group I introns. Nat Struct Biol. 1994 May; 1(5):273-80.
Score: 0.027
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Murphy FL, Cech TR. An independently folding domain of RNA tertiary structure within the Tetrahymena ribozyme. Biochemistry. 1993 May 25; 32(20):5291-300.
Score: 0.025
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Herschlag D, Piccirilli JA, Cech TR. Ribozyme-catalyzed and nonenzymatic reactions of phosphate diesters: rate effects upon substitution of sulfur for a nonbridging phosphoryl oxygen atom. Biochemistry. 1991 May 21; 30(20):4844-54.
Score: 0.022
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Woodson SA, Cech TR. Alternative secondary structures in the 5' exon affect both forward and reverse self-splicing of the Tetrahymena intervening sequence RNA. Biochemistry. 1991 Feb 26; 30(8):2042-50.
Score: 0.022
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Cech TR. RNA editing: world's smallest introns? Cell. 1991 Feb 22; 64(4):667-9.
Score: 0.021
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Cech TR. Self-splicing of group I introns. Annu Rev Biochem. 1990; 59:543-68.
Score: 0.020
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Young B, Cech TR. Specificity for 3',5'-linked substrates in RNA-catalyzed RNA polymerization. J Mol Evol. 1989 Dec; 29(6):480-5.
Score: 0.020
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Flor PJ, Flanegan JB, Cech TR. A conserved base pair within helix P4 of the Tetrahymena ribozyme helps to form the tertiary structure required for self-splicing. EMBO J. 1989 Nov; 8(11):3391-9.
Score: 0.020
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Yarus M, Levine J, Morin GB, Cech TR. A Tetrahymena intron nucleotide connected to the GTP/arginine site. Nucleic Acids Res. 1989 Sep 12; 17(17):6969-81.
Score: 0.019
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Zaug AJ, Grosshans CA, Cech TR. Sequence-specific endoribonuclease activity of the Tetrahymena ribozyme: enhanced cleavage of certain oligonucleotide substrates that form mismatched ribozyme-substrate complexes. Biochemistry. 1988 Dec 13; 27(25):8924-31.
Score: 0.018
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Barfod ET, Cech TR. Deletion of nonconserved helices near the 3' end of the rRNA intron of Tetrahymena thermophila alters self-splicing but not core catalytic activity. Genes Dev. 1988 Jun; 2(6):652-63.
Score: 0.018
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Been MD, Cech TR. RNA as an RNA polymerase: net elongation of an RNA primer catalyzed by the Tetrahymena ribozyme. Science. 1988 Mar 18; 239(4846):1412-6.
Score: 0.018
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Bass BL, Cech TR. Ribozyme inhibitors: deoxyguanosine and dideoxyguanosine are competitive inhibitors of self-splicing of the Tetrahymena ribosomal ribonucleic acid precursor. Biochemistry. 1986 Aug 12; 25(16):4473-7.
Score: 0.016
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Garriga G, Lambowitz AM, Inoue T, Cech TR. Mechanism of recognition of the 5' splice site in self-splicing group I introns. Nature. 1986 Jul 3-9; 322(6074):86-9.
Score: 0.016
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Inoue T, Sullivan FX, Cech TR. New reactions of the ribosomal RNA precursor of Tetrahymena and the mechanism of self-splicing. J Mol Biol. 1986 May 05; 189(1):143-65.
Score: 0.015
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Burke JM, Irvine KD, Kaneko KJ, Kerker BJ, Oettgen AB, Tierney WM, Williamson CL, Zaug AJ, Cech TR. Role of conserved sequence elements 9L and 2 in self-splicing of the Tetrahymena ribosomal RNA precursor. Cell. 1986 Apr 25; 45(2):167-76.
Score: 0.015
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Cech TR. Biologic catalysis by RNA. Harvey Lect. 1986-1987; 82:123-44.
Score: 0.015
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Zaug AJ, Cech TR. Oligomerization of intervening sequence RNA molecules in the absence of proteins. Science. 1985 Sep 13; 229(4718):1060-4.
Score: 0.015
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Sullivan FX, Cech TR. Reversibility of cyclization of the Tetrahymena rRNA intervening sequence: implication for the mechanism of splice site choice. Cell. 1985 Sep; 42(2):639-48.
Score: 0.015
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Inoue T, Cech TR. Secondary structure of the circular form of the Tetrahymena rRNA intervening sequence: a technique for RNA structure analysis using chemical probes and reverse transcriptase. Proc Natl Acad Sci U S A. 1985 Feb; 82(3):648-52.
Score: 0.014
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Bass BL, Cech TR. Specific interaction between the self-splicing RNA of Tetrahymena and its guanosine substrate: implications for biological catalysis by RNA. Nature. 1984 Apr 26-May 2; 308(5962):820-6.
Score: 0.013
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Zaug AJ, Grabowski PJ, Cech TR. Autocatalytic cyclization of an excised intervening sequence RNA is a cleavage-ligation reaction. Nature. 1983 Feb 17-23; 301(5901):578-83.
Score: 0.012
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Connection Strength
The connection strength for concepts is the sum of the scores for each matching publication.
Publication scores are based on many factors, including how long ago they were written and whether the person is a first or senior author.
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