Influence of temperature and crown ether complex formation on the charge partitioning between z and c fragments formed after electron capture by small peptide dications

The effect of crown ether complex formation on the fragmentation of [GHK+2H] 2+ after electron capture. Electron capture by peptide dications results in N–C α bond cleavage to give c + and z or c and z + fragments. In this work we have investigated how crown ether (18-crown-6 = CE) complex formation...

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Veröffentlicht in:	International journal of mass spectrometry 2009-04, Vol.282 (1), p.21-27
Hauptverfasser:	Ehlerding, Anneli, Jensen, Camilla S., Wyer, Jean A., Holm, Anne I.S., Jørgensen, Palle, Kadhane, Umesh, Larsen, Mikkel K., Panja, Subhasis, Poully, Jean Christophe, Worm, Esben S., Zettergren, Henning, Hvelplund, Preben, Brøndsted Nielsen, Steen
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Sprache:	eng
Schlagworte:	18-Crown-6-ether complexes Analytical chemistry Atomic and Molecular Clusters Biological Physics Chemical Physics Chemical Sciences Electron capture-induced dissociation Lifetime measurements Physics Radiochemistry Small peptide dications Temperature dependence
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creator	Ehlerding, Anneli Jensen, Camilla S. Wyer, Jean A. Holm, Anne I.S. Jørgensen, Palle Kadhane, Umesh Larsen, Mikkel K. Panja, Subhasis Poully, Jean Christophe Worm, Esben S. Zettergren, Henning Hvelplund, Preben Brøndsted Nielsen, Steen
description	The effect of crown ether complex formation on the fragmentation of [GHK+2H] 2+ after electron capture. Electron capture by peptide dications results in N–C α bond cleavage to give c + and z or c and z + fragments. In this work we have investigated how crown ether (18-crown-6 = CE) complex formation and a change in the internal energy affect the charge division between the z and c fragments. Both complex formation and a high temperature have the effect of breaking internal ionic hydrogen bonds. The crown ether complex also lowers the probability of internal proton transfer between the two fragments, and reduces the recombination energy of the charged group it targets. The systems under study were doubly protonated di- and tripeptides, [AK+2H] 2+, [AR+2H] 2+, [KK+2H] 2+ and [GHK+2H] 2+ (A = alanine, K = lysine, R = arginine, G = glycine and H = histidine). For crown ether complexes the formation of z + ions was always preferred over c + ions. In the case of [GHK+2H] 2+, the bare ion dissociated into z 2 + + c 1 and z 1 + c 2 + from cleavage of the first and second N–C α bond, respectively, whereas z 1 + fragment ions had higher yield than c 2 + for [GHK+2H] 2+(CE). The internal energy of the ions was changed by storing them in a 22-pole ion trap in which they were equilibrated to a temperature between −60 and 90 °C in collisions with helium gas. The average internal energy increased by about 0.4 eV from the lowest to the highest temperature for the dipeptides and 0.6 eV for the tripeptide. More fragmentation occurred at the higher temperature, as observed by an increase in the formation of b + and y + ions after breakage of the peptide bond of vibrationally hot even-electron cations and from secondary reactions of z + radical cations within the time window of the experiment. However, the z + to c + partitioning was not found to depend significantly on temperature in the measured range. In addition the decay of [GHK+H] +/[GHK+2H] + and [AK+H] + formed after electron capture by [GHK+2H] 2+ and [AK+2H] 2+ was found to occur on a microsecond to millisecond timescale. The data are well described by a power-law decay, which implies that the internal energy distribution is broad after electron capture and/or hydrogen loss.
doi_str_mv	10.1016/j.ijms.2009.01.019
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Electron capture by peptide dications results in N–C α bond cleavage to give c + and z or c and z + fragments. In this work we have investigated how crown ether (18-crown-6 = CE) complex formation and a change in the internal energy affect the charge division between the z and c fragments. Both complex formation and a high temperature have the effect of breaking internal ionic hydrogen bonds. The crown ether complex also lowers the probability of internal proton transfer between the two fragments, and reduces the recombination energy of the charged group it targets. The systems under study were doubly protonated di- and tripeptides, [AK+2H] 2+, [AR+2H] 2+, [KK+2H] 2+ and [GHK+2H] 2+ (A = alanine, K = lysine, R = arginine, G = glycine and H = histidine). For crown ether complexes the formation of z + ions was always preferred over c + ions. In the case of [GHK+2H] 2+, the bare ion dissociated into z 2 + + c 1 and z 1 + c 2 + from cleavage of the first and second N–C α bond, respectively, whereas z 1 + fragment ions had higher yield than c 2 + for [GHK+2H] 2+(CE). The internal energy of the ions was changed by storing them in a 22-pole ion trap in which they were equilibrated to a temperature between −60 and 90 °C in collisions with helium gas. The average internal energy increased by about 0.4 eV from the lowest to the highest temperature for the dipeptides and 0.6 eV for the tripeptide. More fragmentation occurred at the higher temperature, as observed by an increase in the formation of b + and y + ions after breakage of the peptide bond of vibrationally hot even-electron cations and from secondary reactions of z + radical cations within the time window of the experiment. However, the z + to c + partitioning was not found to depend significantly on temperature in the measured range. In addition the decay of [GHK+H] +/[GHK+2H] + and [AK+H] + formed after electron capture by [GHK+2H] 2+ and [AK+2H] 2+ was found to occur on a microsecond to millisecond timescale. 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Electron capture by peptide dications results in N–C α bond cleavage to give c + and z or c and z + fragments. In this work we have investigated how crown ether (18-crown-6 = CE) complex formation and a change in the internal energy affect the charge division between the z and c fragments. Both complex formation and a high temperature have the effect of breaking internal ionic hydrogen bonds. The crown ether complex also lowers the probability of internal proton transfer between the two fragments, and reduces the recombination energy of the charged group it targets. The systems under study were doubly protonated di- and tripeptides, [AK+2H] 2+, [AR+2H] 2+, [KK+2H] 2+ and [GHK+2H] 2+ (A = alanine, K = lysine, R = arginine, G = glycine and H = histidine). For crown ether complexes the formation of z + ions was always preferred over c + ions. In the case of [GHK+2H] 2+, the bare ion dissociated into z 2 + + c 1 and z 1 + c 2 + from cleavage of the first and second N–C α bond, respectively, whereas z 1 + fragment ions had higher yield than c 2 + for [GHK+2H] 2+(CE). The internal energy of the ions was changed by storing them in a 22-pole ion trap in which they were equilibrated to a temperature between −60 and 90 °C in collisions with helium gas. The average internal energy increased by about 0.4 eV from the lowest to the highest temperature for the dipeptides and 0.6 eV for the tripeptide. More fragmentation occurred at the higher temperature, as observed by an increase in the formation of b + and y + ions after breakage of the peptide bond of vibrationally hot even-electron cations and from secondary reactions of z + radical cations within the time window of the experiment. However, the z + to c + partitioning was not found to depend significantly on temperature in the measured range. In addition the decay of [GHK+H] +/[GHK+2H] + and [AK+H] + formed after electron capture by [GHK+2H] 2+ and [AK+2H] 2+ was found to occur on a microsecond to millisecond timescale. The data are well described by a power-law decay, which implies that the internal energy distribution is broad after electron capture and/or hydrogen loss.</description><subject>18-Crown-6-ether complexes</subject><subject>Analytical chemistry</subject><subject>Atomic and Molecular Clusters</subject><subject>Biological Physics</subject><subject>Chemical Physics</subject><subject>Chemical Sciences</subject><subject>Electron capture-induced dissociation</subject><subject>Lifetime measurements</subject><subject>Physics</subject><subject>Radiochemistry</subject><subject>Small peptide dications</subject><subject>Temperature dependence</subject><issn>1387-3806</issn><issn>1873-2798</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2009</creationdate><recordtype>article</recordtype><recordid>eNp9kctKBDEQRRtRcBz9AVe1ddFj0uknuBHxBQNudB1qkspMhn6RxOcX-ZmmZ8SlcCGhUucWqZsk55wtOOPl5XZht51fZIw1C8ajmoNkxutKpFnV1IfxLuoqFTUrj5MT77eMsUoU5Sz5fuxN-0q9IhgMBOpGchheHQH2GpQb3nugsCEHaujGlj7ADK7DYIceouILqA26NcGILtipbvs1rCi8E_XwtbcB43DdUR_8DicNaEL0pJZUcNFH4bgbuvoE32HbwkhjsJpAW7Ub5k-TI4Otp7Pfc5683N0-3zyky6f7x5vrZaqEyEO6yrnJOCHPiTergpc5MRKmyA0riapM64KTMYVG0TBRIJrSlChKleUVoc7FPLnY-26wlaOzHbpPOaCVD9dLOdVYVjd5xqs3HnuzfW_ck_eOzB_AmZxykVs55SKnXCTjUU2ErvYQxV-8WXLSKzsFoK2L25B6sP_hP8JVm4E</recordid><startdate>20090415</startdate><enddate>20090415</enddate><creator>Ehlerding, Anneli</creator><creator>Jensen, Camilla S.</creator><creator>Wyer, Jean A.</creator><creator>Holm, Anne I.S.</creator><creator>Jørgensen, Palle</creator><creator>Kadhane, Umesh</creator><creator>Larsen, Mikkel K.</creator><creator>Panja, Subhasis</creator><creator>Poully, Jean Christophe</creator><creator>Worm, Esben S.</creator><creator>Zettergren, Henning</creator><creator>Hvelplund, Preben</creator><creator>Brøndsted Nielsen, Steen</creator><general>Elsevier B.V</general><general>Elsevier</general><scope>AAYXX</scope><scope>CITATION</scope><scope>1XC</scope><orcidid>https://orcid.org/0000-0001-6000-2954</orcidid></search><sort><creationdate>20090415</creationdate><title>Influence of temperature and crown ether complex formation on the charge partitioning between z and c fragments formed after electron capture by small peptide dications</title><author>Ehlerding, Anneli ; Jensen, Camilla S. ; Wyer, Jean A. ; Holm, Anne I.S. ; Jørgensen, Palle ; Kadhane, Umesh ; Larsen, Mikkel K. ; Panja, Subhasis ; Poully, Jean Christophe ; Worm, Esben S. ; Zettergren, Henning ; Hvelplund, Preben ; Brøndsted Nielsen, Steen</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c334t-b41f21ea14e19b5164e0e3f54f06ee72dd51eff5da39035aaf6f6a36c247ead43</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2009</creationdate><topic>18-Crown-6-ether complexes</topic><topic>Analytical chemistry</topic><topic>Atomic and Molecular Clusters</topic><topic>Biological Physics</topic><topic>Chemical Physics</topic><topic>Chemical Sciences</topic><topic>Electron capture-induced dissociation</topic><topic>Lifetime measurements</topic><topic>Physics</topic><topic>Radiochemistry</topic><topic>Small peptide dications</topic><topic>Temperature dependence</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Ehlerding, Anneli</creatorcontrib><creatorcontrib>Jensen, Camilla S.</creatorcontrib><creatorcontrib>Wyer, Jean A.</creatorcontrib><creatorcontrib>Holm, Anne I.S.</creatorcontrib><creatorcontrib>Jørgensen, Palle</creatorcontrib><creatorcontrib>Kadhane, Umesh</creatorcontrib><creatorcontrib>Larsen, Mikkel K.</creatorcontrib><creatorcontrib>Panja, Subhasis</creatorcontrib><creatorcontrib>Poully, Jean Christophe</creatorcontrib><creatorcontrib>Worm, Esben S.</creatorcontrib><creatorcontrib>Zettergren, Henning</creatorcontrib><creatorcontrib>Hvelplund, Preben</creatorcontrib><creatorcontrib>Brøndsted Nielsen, Steen</creatorcontrib><collection>CrossRef</collection><collection>Hyper Article en Ligne (HAL)</collection><jtitle>International journal of mass spectrometry</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Ehlerding, Anneli</au><au>Jensen, Camilla S.</au><au>Wyer, Jean A.</au><au>Holm, Anne I.S.</au><au>Jørgensen, Palle</au><au>Kadhane, Umesh</au><au>Larsen, Mikkel K.</au><au>Panja, Subhasis</au><au>Poully, Jean Christophe</au><au>Worm, Esben S.</au><au>Zettergren, Henning</au><au>Hvelplund, Preben</au><au>Brøndsted Nielsen, Steen</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Influence of temperature and crown ether complex formation on the charge partitioning between z and c fragments formed after electron capture by small peptide dications</atitle><jtitle>International journal of mass spectrometry</jtitle><date>2009-04-15</date><risdate>2009</risdate><volume>282</volume><issue>1</issue><spage>21</spage><epage>27</epage><pages>21-27</pages><issn>1387-3806</issn><eissn>1873-2798</eissn><abstract>The effect of crown ether complex formation on the fragmentation of [GHK+2H] 2+ after electron capture. Electron capture by peptide dications results in N–C α bond cleavage to give c + and z or c and z + fragments. In this work we have investigated how crown ether (18-crown-6 = CE) complex formation and a change in the internal energy affect the charge division between the z and c fragments. Both complex formation and a high temperature have the effect of breaking internal ionic hydrogen bonds. The crown ether complex also lowers the probability of internal proton transfer between the two fragments, and reduces the recombination energy of the charged group it targets. The systems under study were doubly protonated di- and tripeptides, [AK+2H] 2+, [AR+2H] 2+, [KK+2H] 2+ and [GHK+2H] 2+ (A = alanine, K = lysine, R = arginine, G = glycine and H = histidine). For crown ether complexes the formation of z + ions was always preferred over c + ions. In the case of [GHK+2H] 2+, the bare ion dissociated into z 2 + + c 1 and z 1 + c 2 + from cleavage of the first and second N–C α bond, respectively, whereas z 1 + fragment ions had higher yield than c 2 + for [GHK+2H] 2+(CE). The internal energy of the ions was changed by storing them in a 22-pole ion trap in which they were equilibrated to a temperature between −60 and 90 °C in collisions with helium gas. The average internal energy increased by about 0.4 eV from the lowest to the highest temperature for the dipeptides and 0.6 eV for the tripeptide. More fragmentation occurred at the higher temperature, as observed by an increase in the formation of b + and y + ions after breakage of the peptide bond of vibrationally hot even-electron cations and from secondary reactions of z + radical cations within the time window of the experiment. However, the z + to c + partitioning was not found to depend significantly on temperature in the measured range. In addition the decay of [GHK+H] +/[GHK+2H] + and [AK+H] + formed after electron capture by [GHK+2H] 2+ and [AK+2H] 2+ was found to occur on a microsecond to millisecond timescale. The data are well described by a power-law decay, which implies that the internal energy distribution is broad after electron capture and/or hydrogen loss.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.ijms.2009.01.019</doi><tpages>7</tpages><orcidid>https://orcid.org/0000-0001-6000-2954</orcidid></addata></record>
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subjects	18-Crown-6-ether complexes Analytical chemistry Atomic and Molecular Clusters Biological Physics Chemical Physics Chemical Sciences Electron capture-induced dissociation Lifetime measurements Physics Radiochemistry Small peptide dications Temperature dependence
title	Influence of temperature and crown ether complex formation on the charge partitioning between z and c fragments formed after electron capture by small peptide dications
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