Search Results - "Sauerwald, Anselm"

Structure of active dimeric human telomerase by Sauerwald, Anselm, Sandin, Sara, Cristofari, Gaël, Scheres, Sjors H W, Lingner, Joachim, Rhodes, Daniela

“…EM analyses reveal the three-dimensional structure of human telomerase. Along with functional biochemistry data, the work reveals that telomerase is dimeric in…”
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RNA-Dependent Cysteine Biosynthesis in Archaea by Sauerwald, Anselm, Zhu, Wenhong, Major, Tiffany A, Roy, Hervé, Palioura, Sotiria, Jahn, Dieter, Whitman, William B, Yates, John R, Ibba, Michael, Söll, Dieter

“…Several methanogenic archaea lack cysteinyl-transfer RNA (tRNA) synthetase (CysRS), the essential enzyme that provides Cys-tRNA[superscript Cys] for…”
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Oxygen-dependent Coproporphyrinogen III Oxidase (HemF) from Escherichia coli Is Stimulated by Manganese by Breckau, Daniela, Mahlitz, Esther, Sauerwald, Anselm, Layer, Gunhild, Jahn, Dieter

“…During heme biosynthesis in Escherichia coli two structurally unrelated enzymes, one oxygen-dependent (HemF) and one oxygen-independent (HemN), are able to…”
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Cysteine Activation Is an Inherent in Vitro Property of Prolyl-tRNA Synthetases by Ahel, Ivan, Stathopoulos, Constantinos, Ambrogelly, Alexandre, Sauerwald, Anselm, Toogood, Helen, Hartsch, Thomas, Söll, Dieter

“…Aminoacyl-tRNA synthetases are well known for their remarkable precision in substrate selection during aminoacyl-tRNA formation. Some synthetases enhance the…”
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Toward understanding phosphoseryl-tRNACys formation: The crystal structure of Methanococcus maripaludis phosphoseryl-tRNA synthetase by Kamtekar, Satwik, Hohn, Michael J, Park, Hee-Sung, Schnitzbauer, Michael, Sauerwald, Anselm, Söll, Dieter, Steitz, Thomas A

“…A number of archaeal organisms generate Cys-tRNACys in a two-step pathway, first charging phosphoserine (Sep) onto tRNACys and subsequently converting it to…”
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N-Acetyladenosine: A new modified nucleoside from Methanopyrus kandleri tRNA by Sauerwald, Anselm, Sitaramaiah, Devarasetty, McCloskey, James A, Soll, Dieter, Crain, Pamela F

“…Post-transcriptionally modified nucleosides are constituents of transfer RNA (tRNA) that are known to influence tertiary structure, stability and coding…”
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Toward Understanding$\text{Phosphoseryl-}{\rm tRNA}^{{\rm Cys}}$Formation: The Crystal Structure of Methanococcus maripaludis Phosphoseryl-tRNA Synthetase by Kamtekar, Satwik, Hohn, Michael J., Park, Hee-Sung, Schnitzbauer, Michael, Sauerwald, Anselm, Söll, Dieter, Steitz, Thomas A.

“…A number of archaeal organisms generate ${\rm Cys}\text{-}{\rm tRNA}^{{\rm Cys}}$ in a two-step pathway, first charging phosphoserine (Sep) onto ${\rm…”
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Toward understanding phosphoseryl-tRNA super(Cys) formation: The crystal structure of Methanococcus maripaludis phosphoseryl-tRNA synthetase by Kamtekar, Satwik, Hohn, Michael J, Park, Hee-Sung, Schnitzbauer, Michael, Sauerwald, Anselm, Soell, Dieter, Steitz, Thomas A

“…A number of archaeal organisms generate Cys-tRNA super(Cys) in a two-step pathway, first charging phosphoserine (Sep) onto tRNA super(Cys) and subsequently…”
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N 6-Acetyladenosine: A new modified nucleoside from Methanopyrus kandleri tRNA by Sauerwald, Anselm, Sitaramaiah, Devarasetty, McCloskey, James A., Söll, Dieter, Crain, Pamela F.

“…Post-transcriptionally modified nucleosides are constituents of transfer RNA (tRNA) that are known to influence tertiary structure, stability and coding…”
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N6-Acetyladenosine: a new modified nucleoside from Methanopyrus kandleri tRNA by Sauerwald, Anselm, Sitaramaiah, Devarasetty, McCloskey, James A, Söll, Dieter, Crain, Pamela F

“…Post-transcriptionally modified nucleosides are constituents of transfer RNA (tRNA) that are known to influence tertiary structure, stability and coding…”
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Toward understanding phosphoseryl-tRNA Cys formation: The crystal structure of Methanococcus maripaludis phosphoseryl-tRNA synthetase by Kamtekar, Satwik, Hohn, Michael J., Park, Hee-Sung, Schnitzbauer, Michael, Sauerwald, Anselm, Söll, Dieter, Steitz, Thomas A.

“…A number of archaeal organisms generate Cys-tRNA Cys in a two-step pathway, first charging phosphoserine (Sep) onto tRNA Cys and subsequently converting it to…”
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RNA‐Dependent Cysteine Biosynthesis in Archaea by Yuan, Jing, Sauerwald, Anselm, Zhu, Wenhong, Major, Tiffany, Roy, Hervé, Palioura, Sotiria, Jahn, Dieter, Whitman, William, Yates, John, Ibba, Michael, Söll, Dieter

“…Several methanogenic archaea lack cysS the gene encoding cysteinyl‐tRNA synthetase (CysRS), the essential enzyme that provides Cys‐tRNACys for translation in…”
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