Том 11. Сводное содержание (2014)

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T11N4

CONTENTS

11-1

Soft ionization method for semi-volatile compounds

A.N. Verenchikov, A.P. Kolosov

 

11-2

Use of mass spectrometry for characterizing
the growth of Pseudomonas bacteria bearing
naphthalene degradation plasmids

A.M. Zyakun, V.V. Kochetkov, V.N. Zakharchenko,
B.P. Baskunov, K.S. Laurinavichus, V.P. Peshenko,
T.V. Siunova, T.O. Anokhina, A.M. Boronin

 

11-3

Combination of planar chromatography with matrixassisted
laser desorption/ionization mass spectrometry
for the analysis of biologically active compounds

R.S. Borisov, D.I. Zhilyaev, C.A. Esparsa Sandoval,
N.Yu. Polovkov, V.G. Zaikin

 

11-4

Capability of high resolution electrospray ionization
mass spectrometry in the determination of monoisotopic
molecular masses of the recombinant human insulin
and its analogues

E.I. Berizovskaya, A.A. Ihalaynen, A.M. Antokhin,
V.F. Taranchenko, V.M. Goncharov, D.A. Mitrofanov,
A.V. Aksenov, I.A. Rodin, O.A. Shpigun

 

11-5

Simulating the stationary distributions of ions
in the radio-frequency low- vacuum traps
with regard to Coulomb interaction

I.A. Kopaev, D.E. Grinfeld, M.A. Monastyrskiy,
S.S. Alimpiev

 

1

Application of tandem electrospray/ionization
mass spectrometry for identification of icariin
in plant materials

O.A. Shevlyakova, A.A. Ihalaynen, A.M. Antokhin,
V.F. Taranchenko, V.M. Goncharov, A.V. Aksenov,
D.A. Mitrofanov, I.A. Rodin, O.A. Shpigun

 

Информация о защищенных диссертациях по масс-спектрометрии

Sorry, this entry is only available in Русский.

Application of tandem electrospray/ionization mass spectrometry for identification of icariin in plant materials

T11N4

Application of tandem electrospray/ionization mass spectrometry
for identification of icariin in plant materials

O.A. Shevlyakova, A.A. Ihalaynen, A.M. Antokhin, V.F. Taranchenko, V.M. Goncharov,
A.V. Aksenov, D.A. Mitrofanov, I.A. Rodin, O.A. Shpigun

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Capability of high resolution electrospray ionization mass spectrometryin the determination of monoisotopic molecular masses of the recombinanthuman insulin and its analogues

T11N4

Capability of high resolution electrospray ionization mass spectrometry
in the determination of monoisotopic molecular masses of the recombinant
human insulin and its analogues

E.I. Berizovskaya, A.A. Ihalaynen, A.M. Antokhin, V.F. Taranchenko, V.M. Goncharov,
D.A. Mitrofanov, A.V. Aksenov, I.A. Rodin, O.A. Shpigun

Читать полностью

Combination of planar chromatography with matrix-assisted laser desorption/ionization mass spectrometry for the analysis of biologically active compounds

T11N4

Combination of planar chromatography with matrix-assisted laser
desorption/ionization mass spectrometry for the analysis of biologically
active compounds

R.S. Borisov, D.I. Zhilyaev, C.A. Esparsa Sandoval, N.Yu. Polovkov, V.G. Zaikin

Читать полностью

Use of mass spectrometry for characterizing the growth of Pseudomonas bacteria bearing naphthalene degradation plasmids

T11N4

Use of mass spectrometry for characterizing the growth of Pseudomonas
bacteria bearing naphthalene degradation plasmids

A.M. Zyakun, V.V. Kochetkov, V.N. Zakharchenko, B.P. Baskunov, K.S. Laurinavichus,
V.P. Peshenko, T.V. Siunova, T.O. Anokhina, A.M. Boronin

Metabolites formed during the growth of Pseudomonas bacteria bearing various naphthalene degradation plasmids were identified using high performance liquid chromatography and mass spectrometry in combination with electrospray/ ionization. It was shown that a part of naphthalene consumed by growing bacteria P. aureofaciens BS1393(NPL-41) with plasmid NPL-41 was transformed in salicylic acid and phenol as main and minor exometabolites. The growth of P. aureofaciens BS1393(pOV17) bacteria bearing plasmid pOV17 was accompanied bycompletel oxidation of naphthalene and by a minor production of salicylic acid as exometabolites. On the basis of molecular mass spectrometry, we determined СО2 production dynamics and oxygen uptake in the process of bacterial growth. Specific production of СО2 per unit of cell amount during the growth of bacteria bearing plasmid NPL-41 exceeds five times the production of P. aureofaciens BS1393(pOV17). The respiratory quotient (RQ) representing the ratio of the molar concentrations of metabolic СО2 to consumed oxygen depends on the type of plasmids that determine naphthalene degradation. The value of RQ in the growth of P. aureofaciens BS1393(pOV17) bacteria was almost 1.5 times greater than in the case of P. aureofaciens BS1393(NPL-41). The uptake of О2 for production of СО2 was in the former case 4.5 mol О2/mol СО2; in the case of the latter culture, 6.5 mol О2/mol СО2.

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X Международная масс-спектрометрическая конференция по нефтехимии и экологии «ПЕТРОМАСС-2014»

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