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hplc system with an ods column and a photo diode array detector gl-sciences  (GL Sciences)

 
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    GL Sciences hplc system with an ods column and a photo diode array detector gl-sciences
    Characterization of T. thermophilus MnmA. ( A ) UV–VIS spectra of reconstituted (solid line), reduced (dashed line), and oxidized MnmA (dotted line). The samples of reduced and oxidized MnmA were prepared by adding 10 eq of sodium dithionite and ferricyanide solution, respectively, and diluted to 0.7 mg/mL in A buffer. The peak at around 310 nm in the reduced sample was derived from excess dithionite. ( B ) EPR spectra of reconstituted, reduced, and oxidized MnmA (∼0.7 mM) at 12 K in high (a) and low (b) magnetic fields. The principle g -values are shown in the figure. All spectra acquired under a high magnetic field were subjected to subtraction of the spectrum acquired using buffer alone. A simulated spectrum of the [4Fe–4S] 1+ cluster is also presented in (a), represented by a dotted line. The asterisk in (b) shows an unknown signal with g ∼ 5.7. Detailed conditions: microwave frequency = ∼ 9.59 GHz, microwave power = 1 mW, 100 kHz modulation amplitude = 10 G, time constants = 41 ms, number of scans = 4, and temperature = 12 K. ( C ) Nucleoside analysis of <t>transcribed</t> <t>tRNA</t> Lys from in vitro reactions with holo-TtMnmA. The modified nucleosides of the reacted RNA were analyzed by <t>HPLC.</t> (a) tRNA (450 pmol) was reacted at 60°C for 20 min with 19 pmol of MnmA in the presence of 0.1 mM sodium sulfide, 2.5 mM ATP, and 0.1 mM DTT. (b) s 2 U standard. (c) tRNA Lys with a U34A mutation was used. (d) Apo-MnmA was used. In (e) and (f), ATP and sodium sulfide were omitted, respectively. ( D ) UV spectra of s 2 U detected at 18.5 min in tRNA Lys ( C [a]) and authentic s 2 U ( C [b]). ( E ) Nucleoside analysis of transcribed tRNA Gln from in vitro reactions. Wild-type (a) and U34A mutant (b) molecules were analyzed. The assay conditions were the same as in C . ( F ) [ 35 S]-Cys-derived 35 S-sulfur incorporation into s 2 U. tRNA Lys (450 pmol) was reacted at 60°C for 30 min with 19 pmol of apo- or holo-MnmA and 75 pmol of IscS or SufS in the presence of 20 µM [ 35 S]-Cys, 20 µM pyridoxal phosphate, 2.5 mM ATP, and 0.1 mM DTT. The reacted RNA was separated by 10% denaturing PAGE and then stained with toluidine blue (TB; left ), after which the 35 S radioactivity was visualized ( right ).
    Hplc System With An Ods Column And A Photo Diode Array Detector Gl Sciences, supplied by GL Sciences, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    1) Product Images from "An ancient type of MnmA protein is an iron–sulfur cluster-dependent sulfurtransferase for tRNA anticodons"

    Article Title: An ancient type of MnmA protein is an iron–sulfur cluster-dependent sulfurtransferase for tRNA anticodons

    Journal: RNA

    doi: 10.1261/rna.072066.119

    Characterization of T. thermophilus MnmA. ( A ) UV–VIS spectra of reconstituted (solid line), reduced (dashed line), and oxidized MnmA (dotted line). The samples of reduced and oxidized MnmA were prepared by adding 10 eq of sodium dithionite and ferricyanide solution, respectively, and diluted to 0.7 mg/mL in A buffer. The peak at around 310 nm in the reduced sample was derived from excess dithionite. ( B ) EPR spectra of reconstituted, reduced, and oxidized MnmA (∼0.7 mM) at 12 K in high (a) and low (b) magnetic fields. The principle g -values are shown in the figure. All spectra acquired under a high magnetic field were subjected to subtraction of the spectrum acquired using buffer alone. A simulated spectrum of the [4Fe–4S] 1+ cluster is also presented in (a), represented by a dotted line. The asterisk in (b) shows an unknown signal with g ∼ 5.7. Detailed conditions: microwave frequency = ∼ 9.59 GHz, microwave power = 1 mW, 100 kHz modulation amplitude = 10 G, time constants = 41 ms, number of scans = 4, and temperature = 12 K. ( C ) Nucleoside analysis of transcribed tRNA Lys from in vitro reactions with holo-TtMnmA. The modified nucleosides of the reacted RNA were analyzed by HPLC. (a) tRNA (450 pmol) was reacted at 60°C for 20 min with 19 pmol of MnmA in the presence of 0.1 mM sodium sulfide, 2.5 mM ATP, and 0.1 mM DTT. (b) s 2 U standard. (c) tRNA Lys with a U34A mutation was used. (d) Apo-MnmA was used. In (e) and (f), ATP and sodium sulfide were omitted, respectively. ( D ) UV spectra of s 2 U detected at 18.5 min in tRNA Lys ( C [a]) and authentic s 2 U ( C [b]). ( E ) Nucleoside analysis of transcribed tRNA Gln from in vitro reactions. Wild-type (a) and U34A mutant (b) molecules were analyzed. The assay conditions were the same as in C . ( F ) [ 35 S]-Cys-derived 35 S-sulfur incorporation into s 2 U. tRNA Lys (450 pmol) was reacted at 60°C for 30 min with 19 pmol of apo- or holo-MnmA and 75 pmol of IscS or SufS in the presence of 20 µM [ 35 S]-Cys, 20 µM pyridoxal phosphate, 2.5 mM ATP, and 0.1 mM DTT. The reacted RNA was separated by 10% denaturing PAGE and then stained with toluidine blue (TB; left ), after which the 35 S radioactivity was visualized ( right ).
    Figure Legend Snippet: Characterization of T. thermophilus MnmA. ( A ) UV–VIS spectra of reconstituted (solid line), reduced (dashed line), and oxidized MnmA (dotted line). The samples of reduced and oxidized MnmA were prepared by adding 10 eq of sodium dithionite and ferricyanide solution, respectively, and diluted to 0.7 mg/mL in A buffer. The peak at around 310 nm in the reduced sample was derived from excess dithionite. ( B ) EPR spectra of reconstituted, reduced, and oxidized MnmA (∼0.7 mM) at 12 K in high (a) and low (b) magnetic fields. The principle g -values are shown in the figure. All spectra acquired under a high magnetic field were subjected to subtraction of the spectrum acquired using buffer alone. A simulated spectrum of the [4Fe–4S] 1+ cluster is also presented in (a), represented by a dotted line. The asterisk in (b) shows an unknown signal with g ∼ 5.7. Detailed conditions: microwave frequency = ∼ 9.59 GHz, microwave power = 1 mW, 100 kHz modulation amplitude = 10 G, time constants = 41 ms, number of scans = 4, and temperature = 12 K. ( C ) Nucleoside analysis of transcribed tRNA Lys from in vitro reactions with holo-TtMnmA. The modified nucleosides of the reacted RNA were analyzed by HPLC. (a) tRNA (450 pmol) was reacted at 60°C for 20 min with 19 pmol of MnmA in the presence of 0.1 mM sodium sulfide, 2.5 mM ATP, and 0.1 mM DTT. (b) s 2 U standard. (c) tRNA Lys with a U34A mutation was used. (d) Apo-MnmA was used. In (e) and (f), ATP and sodium sulfide were omitted, respectively. ( D ) UV spectra of s 2 U detected at 18.5 min in tRNA Lys ( C [a]) and authentic s 2 U ( C [b]). ( E ) Nucleoside analysis of transcribed tRNA Gln from in vitro reactions. Wild-type (a) and U34A mutant (b) molecules were analyzed. The assay conditions were the same as in C . ( F ) [ 35 S]-Cys-derived 35 S-sulfur incorporation into s 2 U. tRNA Lys (450 pmol) was reacted at 60°C for 30 min with 19 pmol of apo- or holo-MnmA and 75 pmol of IscS or SufS in the presence of 20 µM [ 35 S]-Cys, 20 µM pyridoxal phosphate, 2.5 mM ATP, and 0.1 mM DTT. The reacted RNA was separated by 10% denaturing PAGE and then stained with toluidine blue (TB; left ), after which the 35 S radioactivity was visualized ( right ).

    Techniques Used: Derivative Assay, In Vitro, Modification, Mutagenesis, Staining, Radioactivity



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    Characterization of T. thermophilus MnmA. ( A ) UV–VIS spectra of reconstituted (solid line), reduced (dashed line), and oxidized MnmA (dotted line). The samples of reduced and oxidized MnmA were prepared by adding 10 eq of sodium dithionite and ferricyanide solution, respectively, and diluted to 0.7 mg/mL in A buffer. The peak at around 310 nm in the reduced sample was derived from excess dithionite. ( B ) EPR spectra of reconstituted, reduced, and oxidized MnmA (∼0.7 mM) at 12 K in high (a) and low (b) magnetic fields. The principle g -values are shown in the figure. All spectra acquired under a high magnetic field were subjected to subtraction of the spectrum acquired using buffer alone. A simulated spectrum of the [4Fe–4S] 1+ cluster is also presented in (a), represented by a dotted line. The asterisk in (b) shows an unknown signal with g ∼ 5.7. Detailed conditions: microwave frequency = ∼ 9.59 GHz, microwave power = 1 mW, 100 kHz modulation amplitude = 10 G, time constants = 41 ms, number of scans = 4, and temperature = 12 K. ( C ) Nucleoside analysis of <t>transcribed</t> <t>tRNA</t> Lys from in vitro reactions with holo-TtMnmA. The modified nucleosides of the reacted RNA were analyzed by <t>HPLC.</t> (a) tRNA (450 pmol) was reacted at 60°C for 20 min with 19 pmol of MnmA in the presence of 0.1 mM sodium sulfide, 2.5 mM ATP, and 0.1 mM DTT. (b) s 2 U standard. (c) tRNA Lys with a U34A mutation was used. (d) Apo-MnmA was used. In (e) and (f), ATP and sodium sulfide were omitted, respectively. ( D ) UV spectra of s 2 U detected at 18.5 min in tRNA Lys ( C [a]) and authentic s 2 U ( C [b]). ( E ) Nucleoside analysis of transcribed tRNA Gln from in vitro reactions. Wild-type (a) and U34A mutant (b) molecules were analyzed. The assay conditions were the same as in C . ( F ) [ 35 S]-Cys-derived 35 S-sulfur incorporation into s 2 U. tRNA Lys (450 pmol) was reacted at 60°C for 30 min with 19 pmol of apo- or holo-MnmA and 75 pmol of IscS or SufS in the presence of 20 µM [ 35 S]-Cys, 20 µM pyridoxal phosphate, 2.5 mM ATP, and 0.1 mM DTT. The reacted RNA was separated by 10% denaturing PAGE and then stained with toluidine blue (TB; left ), after which the 35 S radioactivity was visualized ( right ).
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    Characterization of T. thermophilus MnmA. ( A ) UV–VIS spectra of reconstituted (solid line), reduced (dashed line), and oxidized MnmA (dotted line). The samples of reduced and oxidized MnmA were prepared by adding 10 eq of sodium dithionite and ferricyanide solution, respectively, and diluted to 0.7 mg/mL in A buffer. The peak at around 310 nm in the reduced sample was derived from excess dithionite. ( B ) EPR spectra of reconstituted, reduced, and oxidized MnmA (∼0.7 mM) at 12 K in high (a) and low (b) magnetic fields. The principle g -values are shown in the figure. All spectra acquired under a high magnetic field were subjected to subtraction of the spectrum acquired using buffer alone. A simulated spectrum of the [4Fe–4S] 1+ cluster is also presented in (a), represented by a dotted line. The asterisk in (b) shows an unknown signal with g ∼ 5.7. Detailed conditions: microwave frequency = ∼ 9.59 GHz, microwave power = 1 mW, 100 kHz modulation amplitude = 10 G, time constants = 41 ms, number of scans = 4, and temperature = 12 K. ( C ) Nucleoside analysis of <t>transcribed</t> <t>tRNA</t> Lys from in vitro reactions with holo-TtMnmA. The modified nucleosides of the reacted RNA were analyzed by <t>HPLC.</t> (a) tRNA (450 pmol) was reacted at 60°C for 20 min with 19 pmol of MnmA in the presence of 0.1 mM sodium sulfide, 2.5 mM ATP, and 0.1 mM DTT. (b) s 2 U standard. (c) tRNA Lys with a U34A mutation was used. (d) Apo-MnmA was used. In (e) and (f), ATP and sodium sulfide were omitted, respectively. ( D ) UV spectra of s 2 U detected at 18.5 min in tRNA Lys ( C [a]) and authentic s 2 U ( C [b]). ( E ) Nucleoside analysis of transcribed tRNA Gln from in vitro reactions. Wild-type (a) and U34A mutant (b) molecules were analyzed. The assay conditions were the same as in C . ( F ) [ 35 S]-Cys-derived 35 S-sulfur incorporation into s 2 U. tRNA Lys (450 pmol) was reacted at 60°C for 30 min with 19 pmol of apo- or holo-MnmA and 75 pmol of IscS or SufS in the presence of 20 µM [ 35 S]-Cys, 20 µM pyridoxal phosphate, 2.5 mM ATP, and 0.1 mM DTT. The reacted RNA was separated by 10% denaturing PAGE and then stained with toluidine blue (TB; left ), after which the 35 S radioactivity was visualized ( right ).
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    Characterization of T. thermophilus MnmA. ( A ) UV–VIS spectra of reconstituted (solid line), reduced (dashed line), and oxidized MnmA (dotted line). The samples of reduced and oxidized MnmA were prepared by adding 10 eq of sodium dithionite and ferricyanide solution, respectively, and diluted to 0.7 mg/mL in A buffer. The peak at around 310 nm in the reduced sample was derived from excess dithionite. ( B ) EPR spectra of reconstituted, reduced, and oxidized MnmA (∼0.7 mM) at 12 K in high (a) and low (b) magnetic fields. The principle g -values are shown in the figure. All spectra acquired under a high magnetic field were subjected to subtraction of the spectrum acquired using buffer alone. A simulated spectrum of the [4Fe–4S] 1+ cluster is also presented in (a), represented by a dotted line. The asterisk in (b) shows an unknown signal with g ∼ 5.7. Detailed conditions: microwave frequency = ∼ 9.59 GHz, microwave power = 1 mW, 100 kHz modulation amplitude = 10 G, time constants = 41 ms, number of scans = 4, and temperature = 12 K. ( C ) Nucleoside analysis of <t>transcribed</t> <t>tRNA</t> Lys from in vitro reactions with holo-TtMnmA. The modified nucleosides of the reacted RNA were analyzed by <t>HPLC.</t> (a) tRNA (450 pmol) was reacted at 60°C for 20 min with 19 pmol of MnmA in the presence of 0.1 mM sodium sulfide, 2.5 mM ATP, and 0.1 mM DTT. (b) s 2 U standard. (c) tRNA Lys with a U34A mutation was used. (d) Apo-MnmA was used. In (e) and (f), ATP and sodium sulfide were omitted, respectively. ( D ) UV spectra of s 2 U detected at 18.5 min in tRNA Lys ( C [a]) and authentic s 2 U ( C [b]). ( E ) Nucleoside analysis of transcribed tRNA Gln from in vitro reactions. Wild-type (a) and U34A mutant (b) molecules were analyzed. The assay conditions were the same as in C . ( F ) [ 35 S]-Cys-derived 35 S-sulfur incorporation into s 2 U. tRNA Lys (450 pmol) was reacted at 60°C for 30 min with 19 pmol of apo- or holo-MnmA and 75 pmol of IscS or SufS in the presence of 20 µM [ 35 S]-Cys, 20 µM pyridoxal phosphate, 2.5 mM ATP, and 0.1 mM DTT. The reacted RNA was separated by 10% denaturing PAGE and then stained with toluidine blue (TB; left ), after which the 35 S radioactivity was visualized ( right ).
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    Characterization of T. thermophilus MnmA. ( A ) UV–VIS spectra of reconstituted (solid line), reduced (dashed line), and oxidized MnmA (dotted line). The samples of reduced and oxidized MnmA were prepared by adding 10 eq of sodium dithionite and ferricyanide solution, respectively, and diluted to 0.7 mg/mL in A buffer. The peak at around 310 nm in the reduced sample was derived from excess dithionite. ( B ) EPR spectra of reconstituted, reduced, and oxidized MnmA (∼0.7 mM) at 12 K in high (a) and low (b) magnetic fields. The principle g -values are shown in the figure. All spectra acquired under a high magnetic field were subjected to subtraction of the spectrum acquired using buffer alone. A simulated spectrum of the [4Fe–4S] 1+ cluster is also presented in (a), represented by a dotted line. The asterisk in (b) shows an unknown signal with g ∼ 5.7. Detailed conditions: microwave frequency = ∼ 9.59 GHz, microwave power = 1 mW, 100 kHz modulation amplitude = 10 G, time constants = 41 ms, number of scans = 4, and temperature = 12 K. ( C ) Nucleoside analysis of transcribed tRNA Lys from in vitro reactions with holo-TtMnmA. The modified nucleosides of the reacted RNA were analyzed by HPLC. (a) tRNA (450 pmol) was reacted at 60°C for 20 min with 19 pmol of MnmA in the presence of 0.1 mM sodium sulfide, 2.5 mM ATP, and 0.1 mM DTT. (b) s 2 U standard. (c) tRNA Lys with a U34A mutation was used. (d) Apo-MnmA was used. In (e) and (f), ATP and sodium sulfide were omitted, respectively. ( D ) UV spectra of s 2 U detected at 18.5 min in tRNA Lys ( C [a]) and authentic s 2 U ( C [b]). ( E ) Nucleoside analysis of transcribed tRNA Gln from in vitro reactions. Wild-type (a) and U34A mutant (b) molecules were analyzed. The assay conditions were the same as in C . ( F ) [ 35 S]-Cys-derived 35 S-sulfur incorporation into s 2 U. tRNA Lys (450 pmol) was reacted at 60°C for 30 min with 19 pmol of apo- or holo-MnmA and 75 pmol of IscS or SufS in the presence of 20 µM [ 35 S]-Cys, 20 µM pyridoxal phosphate, 2.5 mM ATP, and 0.1 mM DTT. The reacted RNA was separated by 10% denaturing PAGE and then stained with toluidine blue (TB; left ), after which the 35 S radioactivity was visualized ( right ).

    Journal: RNA

    Article Title: An ancient type of MnmA protein is an iron–sulfur cluster-dependent sulfurtransferase for tRNA anticodons

    doi: 10.1261/rna.072066.119

    Figure Lengend Snippet: Characterization of T. thermophilus MnmA. ( A ) UV–VIS spectra of reconstituted (solid line), reduced (dashed line), and oxidized MnmA (dotted line). The samples of reduced and oxidized MnmA were prepared by adding 10 eq of sodium dithionite and ferricyanide solution, respectively, and diluted to 0.7 mg/mL in A buffer. The peak at around 310 nm in the reduced sample was derived from excess dithionite. ( B ) EPR spectra of reconstituted, reduced, and oxidized MnmA (∼0.7 mM) at 12 K in high (a) and low (b) magnetic fields. The principle g -values are shown in the figure. All spectra acquired under a high magnetic field were subjected to subtraction of the spectrum acquired using buffer alone. A simulated spectrum of the [4Fe–4S] 1+ cluster is also presented in (a), represented by a dotted line. The asterisk in (b) shows an unknown signal with g ∼ 5.7. Detailed conditions: microwave frequency = ∼ 9.59 GHz, microwave power = 1 mW, 100 kHz modulation amplitude = 10 G, time constants = 41 ms, number of scans = 4, and temperature = 12 K. ( C ) Nucleoside analysis of transcribed tRNA Lys from in vitro reactions with holo-TtMnmA. The modified nucleosides of the reacted RNA were analyzed by HPLC. (a) tRNA (450 pmol) was reacted at 60°C for 20 min with 19 pmol of MnmA in the presence of 0.1 mM sodium sulfide, 2.5 mM ATP, and 0.1 mM DTT. (b) s 2 U standard. (c) tRNA Lys with a U34A mutation was used. (d) Apo-MnmA was used. In (e) and (f), ATP and sodium sulfide were omitted, respectively. ( D ) UV spectra of s 2 U detected at 18.5 min in tRNA Lys ( C [a]) and authentic s 2 U ( C [b]). ( E ) Nucleoside analysis of transcribed tRNA Gln from in vitro reactions. Wild-type (a) and U34A mutant (b) molecules were analyzed. The assay conditions were the same as in C . ( F ) [ 35 S]-Cys-derived 35 S-sulfur incorporation into s 2 U. tRNA Lys (450 pmol) was reacted at 60°C for 30 min with 19 pmol of apo- or holo-MnmA and 75 pmol of IscS or SufS in the presence of 20 µM [ 35 S]-Cys, 20 µM pyridoxal phosphate, 2.5 mM ATP, and 0.1 mM DTT. The reacted RNA was separated by 10% denaturing PAGE and then stained with toluidine blue (TB; left ), after which the 35 S radioactivity was visualized ( right ).

    Article Snippet: Hydrolysates of thiolated tRNA were prepared and analyzed using a HPLC system with an ODS column and a photo diode array detector (GL-Sciences) as described previously ( ).

    Techniques: Derivative Assay, In Vitro, Modification, Mutagenesis, Staining, Radioactivity