Mycorrhiza-induced alterations in metabolome of medicago lupulina leaves during symbiosis development

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Mycorrhiza-induced alterations in metabolome of medicago lupulina leaves during symbiosis development. / Yurkov, Andrey P.; Puzanskiy, Roman K.; Avdeeva, Galina S.; Jacobi, Lidija M.; Gorbunova, Anastasia O.; Kryukov, Alexey A.; Kozhemyakov, Andrei P.; Laktionov, Yuri V.; Kosulnikov, Yuri V.; Romanyuk, Daria A.; Yemelyanov, Vladislav V.; Shavarda, Alexey L.; Kirpichnikova, Anastasia A.; Smolikova, Galina N.; Shishova, Maria F.

In: Plants, Vol. 10, No. 11, 2506, 18.11.2021.

Research output: Contribution to journal › Article › peer-review

Author

Yurkov, Andrey P. ; Puzanskiy, Roman K. ; Avdeeva, Galina S. ; Jacobi, Lidija M. ; Gorbunova, Anastasia O. ; Kryukov, Alexey A. ; Kozhemyakov, Andrei P. ; Laktionov, Yuri V. ; Kosulnikov, Yuri V. ; Romanyuk, Daria A. ; Yemelyanov, Vladislav V. ; Shavarda, Alexey L. ; Kirpichnikova, Anastasia A. ; Smolikova, Galina N. ; Shishova, Maria F. / Mycorrhiza-induced alterations in metabolome of medicago lupulina leaves during symbiosis development. In: Plants. 2021 ; Vol. 10, No. 11.

BibTeX

@article{9066dd50055b482fb2e074d96eb41150,

title = "Mycorrhiza-induced alterations in metabolome of medicago lupulina leaves during symbiosis development",

abstract = "The present study is aimed at disclosing metabolic profile alterations in the leaves of the Medicago lupulina MlS-1 line that result from high-efficiency arbuscular mycorrhiza (АМ) symbiosis formed with Rhizophagus irregularis under condition of a low phosphorus level in the substrate. A highly effective AM symbiosis was established in the period from the stooling to the shoot branching initiation stage (the efficiency in stem height exceeded 200%). Mycorrhization led to a more intensive accumulation of phosphates (glycerophosphoglycerol and inorganic phosphate) in M. lupulina leaves. Metabolic spectra were detected with GS-MS analysis. The application of complex mathematical analyses made it possible to identify the clustering of various groups of 320 metabolites and thus demonstrate the central importance of the carbohydrate and carboxylate-amino acid clusters. The results obtained indicate a delay in the metabolic development of mycorrhized plants. Thus, AM not only accelerates the transition between plant developmental stages but delays biochemical “maturation” mainly in the form of a lag of sugar accumulation in comparison with non-mycorrhized plants. Several methods of statistical modeling proved that, at least with respect to determining the metabolic status of host-plant leaves, stages of phenological development have priority over calendar age.",

keywords = "Arbuscular mycorrhiza, Leaf, Medicago lupulina, Metabolic profile, Physiological stage, Plant development, Rhizophagus irregularis, Symbiotic efficiency, ARBUSCULAR MYCORRHIZAL, ROOT, physiological stage, leaf, PHOSPHATE TRANSPORTER, plant development, LOW PHOSPHORUS, symbiotic efficiency, CHLAMYDOMONAS-REINHARDTII, TRUNCATULA, FUNGUS RHIZOPHAGUS-IRREGULARIS, metabolic profile, BLACK MEDICK, GROWTH, GENE-EXPRESSION, arbuscular mycorrhiza",

author = "Yurkov, {Andrey P.} and Puzanskiy, {Roman K.} and Avdeeva, {Galina S.} and Jacobi, {Lidija M.} and Gorbunova, {Anastasia O.} and Kryukov, {Alexey A.} and Kozhemyakov, {Andrei P.} and Laktionov, {Yuri V.} and Kosulnikov, {Yuri V.} and Romanyuk, {Daria A.} and Yemelyanov, {Vladislav V.} and Shavarda, {Alexey L.} and Kirpichnikova, {Anastasia A.} and Smolikova, {Galina N.} and Shishova, {Maria F.}",

note = "Publisher Copyright: {\textcopyright} 2021 by the authors. Licensee MDPI, Basel, Switzerland.",

year = "2021",

month = nov,

day = "18",

doi = "10.3390/plants10112506",

language = "English",

volume = "10",

journal = "Plants",

issn = "2223-7747",

publisher = "MDPI AG",

number = "11",

}

RIS

TY - JOUR

T1 - Mycorrhiza-induced alterations in metabolome of medicago lupulina leaves during symbiosis development

AU - Yurkov, Andrey P.

AU - Puzanskiy, Roman K.

AU - Avdeeva, Galina S.

AU - Jacobi, Lidija M.

AU - Gorbunova, Anastasia O.

AU - Kryukov, Alexey A.

AU - Kozhemyakov, Andrei P.

AU - Laktionov, Yuri V.

AU - Kosulnikov, Yuri V.

AU - Romanyuk, Daria A.

AU - Yemelyanov, Vladislav V.

AU - Shavarda, Alexey L.

AU - Kirpichnikova, Anastasia A.

AU - Smolikova, Galina N.

AU - Shishova, Maria F.

PY - 2021/11/18

Y1 - 2021/11/18

N2 - The present study is aimed at disclosing metabolic profile alterations in the leaves of the Medicago lupulina MlS-1 line that result from high-efficiency arbuscular mycorrhiza (АМ) symbiosis formed with Rhizophagus irregularis under condition of a low phosphorus level in the substrate. A highly effective AM symbiosis was established in the period from the stooling to the shoot branching initiation stage (the efficiency in stem height exceeded 200%). Mycorrhization led to a more intensive accumulation of phosphates (glycerophosphoglycerol and inorganic phosphate) in M. lupulina leaves. Metabolic spectra were detected with GS-MS analysis. The application of complex mathematical analyses made it possible to identify the clustering of various groups of 320 metabolites and thus demonstrate the central importance of the carbohydrate and carboxylate-amino acid clusters. The results obtained indicate a delay in the metabolic development of mycorrhized plants. Thus, AM not only accelerates the transition between plant developmental stages but delays biochemical “maturation” mainly in the form of a lag of sugar accumulation in comparison with non-mycorrhized plants. Several methods of statistical modeling proved that, at least with respect to determining the metabolic status of host-plant leaves, stages of phenological development have priority over calendar age.

AB - The present study is aimed at disclosing metabolic profile alterations in the leaves of the Medicago lupulina MlS-1 line that result from high-efficiency arbuscular mycorrhiza (АМ) symbiosis formed with Rhizophagus irregularis under condition of a low phosphorus level in the substrate. A highly effective AM symbiosis was established in the period from the stooling to the shoot branching initiation stage (the efficiency in stem height exceeded 200%). Mycorrhization led to a more intensive accumulation of phosphates (glycerophosphoglycerol and inorganic phosphate) in M. lupulina leaves. Metabolic spectra were detected with GS-MS analysis. The application of complex mathematical analyses made it possible to identify the clustering of various groups of 320 metabolites and thus demonstrate the central importance of the carbohydrate and carboxylate-amino acid clusters. The results obtained indicate a delay in the metabolic development of mycorrhized plants. Thus, AM not only accelerates the transition between plant developmental stages but delays biochemical “maturation” mainly in the form of a lag of sugar accumulation in comparison with non-mycorrhized plants. Several methods of statistical modeling proved that, at least with respect to determining the metabolic status of host-plant leaves, stages of phenological development have priority over calendar age.

KW - Arbuscular mycorrhiza

KW - Leaf

KW - Medicago lupulina

KW - Metabolic profile

KW - Physiological stage

KW - Plant development

KW - Rhizophagus irregularis

KW - Symbiotic efficiency

KW - ARBUSCULAR MYCORRHIZAL

KW - ROOT

KW - physiological stage

KW - leaf

KW - PHOSPHATE TRANSPORTER

KW - plant development

KW - LOW PHOSPHORUS

KW - symbiotic efficiency

KW - CHLAMYDOMONAS-REINHARDTII

KW - TRUNCATULA

KW - FUNGUS RHIZOPHAGUS-IRREGULARIS

KW - metabolic profile

KW - BLACK MEDICK

KW - GROWTH

KW - GENE-EXPRESSION

KW - arbuscular mycorrhiza

UR - http://www.scopus.com/inward/record.url?scp=85119183423&partnerID=8YFLogxK

UR - https://www.mendeley.com/catalogue/a4b72aba-a7ad-3729-9614-d7c7ff4d9bef/

U2 - 10.3390/plants10112506

DO - 10.3390/plants10112506

M3 - Article

AN - SCOPUS:85119183423

VL - 10

JO - Plants

JF - Plants

SN - 2223-7747

IS - 11

M1 - 2506

ER -

ID: 88751095