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3. Coping with spring frost-effects on polyamine metabolism of Scots pine seedlings

Author

Muilu-Mäkelä R, Vuosku J, Saarinen M, Hamberg L, Ruotsalainen S, Häggman H, and Sarjala T

Subjects
Phenylpropanoids, Polyamines, Scots Pine, Spring Frost, Forestry, SD1-669.5
Abstract

Polyamines (PA) are ubiquitous polycations known to be involved in several phases of plant development as well as in tolerance to abiotic stresses. Phenols are complex secondary metabolites produced via the phenylpropanoid pathway that contain, e.g., cell wall compounds and antioxidants. Phenols are known to enhance chilling tolerance of plants. PA and phenolic pathways are connected via conjugation. In boreal coniferous forests spring frost has been considered to have severe effects on the survival of tree seedlings. Such effects are likely to increase in the future. The present study focuses on the role of PA and phenylpropanoid syntheses in the coping strategies of Scots pine exposed to cold temperatures during the vulnerable early seedling phase in late spring and early summer. We found that spring frost affects the expression of genes regulating PA metabolism and phenylpropanoid synthesis differently in above and below ground parts of the seedlings, whereas PA or phenol contents in tissues were not affected. The results suggest that Scots pine seedlings may not have time to develop metabolite level responses during a short period of freezing stress and, therefore, the originally different PA levels, especially in roots, may influence the tolerance of Scots pine seedlings to spring frost.

Published
2017
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6. Polyamine metabolism in Scots pine embryogenic cells under potassium deficiency

Author

Muilu-Mäkelä, R. (Riina), Vuosku, J. (Jaana), Häggman, H. (Hely), Sarjala, T. (Tytti), Muilu-Mäkelä, R. (Riina), Vuosku, J. (Jaana), Häggman, H. (Hely), and Sarjala, T. (Tytti)

Abstract

Polyamines (PA) have a protective role in maintaining growth and development in Scots pine during abiotic stresses. In the present study, a controlled liquid Scots pine embryogenic cell culture was used for studying the responses of PA metabolism related to potassium deficiency. The transcription level regulation of PA metabolism led to the accumulation of putrescine (Put). Arginine decarboxylase (ADC) had an increased expression trend under potassium deficiency, whereas spermidine synthase (SPDS) expression decreased. Generally, free spermidine (Spd) and spermine (Spm)/ thermospermine (t-Spm) contents were kept relatively stable, mostly by the downregulation of polyamine oxidase (PAO) expression. The low potassium contents in the culture medium decreased the potassium content of the cells, which inhibited cell mass growth, but did not affect cell viability. The reduced growth was probably caused by repressed metabolic activity and cell division, whereas there were no signs of H₂O₂-induced oxidative stress or increased cell death. The low intracellular content of K⁺ decreased the content of Na⁺. The decrease in the pH of the culture medium indicated that H⁺ ions were pumped out of the cells. Altogether, our findings emphasize the specific role(s) of Put under potassium deficiency and strict developmental regulation of PA metabolism in Scots pine.

Published
2021

7. Clonal variation in the bark chemical properties of hybrid aspen:potential for added value chemicals

Author

Korkalo, P. (Pasi), Korpinen, R. (Risto), Beuker, E. (Egbert), Sarjala, T. (Tytti), Hellström, J. (Jarkko), Kaseva, J. (Janne), Lassi, U. (Ulla), and Jyske, T. (Tuula)

Subjects
Bark, Antioxidative capacity, Hybrid aspen, Cascade, Condensed tannin, Extractive, Clonal variation, Lignocellulosic biomass, Suberic acid
Abstract

This study aims to promote comprehensive utilization of woody biomass by providing a knowledgebase on the utility of aspen bark as a new alternative source for fossil-based chemicals. The research focused on the analysis of clonal variation in: (1) major chemical components, i.e., hemicelluloses, cellulose, and lignin; (2) extraneous materials, i.e., bark extractives, and suberic acid; (3) condensed tannins content and composition; and (4) screening differences in antioxidative properties and total phenolic content of hot water extracts and ethanol-water extracts of hybrid aspen bark. Results of this study, the discovery of clonal variation in utilizable chemicals, pave the way for further research on added-value potential of under-utilized hybrid aspen and its bark. Clonal variation was found in notable part of chemicals with potential for utilization. Based on the results, an appropriate bark raw material can be selected for tailored processing, thus improving the resource efficiency. The results also indicate that by applying cascade processing concepts, bark chemical substances could be more efficiently utilized with more environmentally friendly methods.

Published
2020

9. Thermospermine synthase (ACL5) and diamine oxidase (DAO) expression is needed for zygotic embryogenesis and vascular development in Scots pine

Author

Vuosku, J. (Jaana), Muilu-Mäkelä, R. (Riina), Avia, K. (Komlan), Suokas, M. (Marko), Kestilä, J. (Johanna), Läärä, E. (Esa), Häggman, H. (Hely), Savolainen, O. (Outi), Sarjala, T. (Tytti), Vuosku, J. (Jaana), Muilu-Mäkelä, R. (Riina), Avia, K. (Komlan), Suokas, M. (Marko), Kestilä, J. (Johanna), Läärä, E. (Esa), Häggman, H. (Hely), Savolainen, O. (Outi), and Sarjala, T. (Tytti)

Abstract

Unlike in flowering plants, the detailed roles of the enzymes in the polyamine (PA) pathway in conifers are poorly known. We explored the sequence conservation of the PA biosynthetic genes and diamine oxidase (DAO) in conifers and flowering plants to reveal the potential functional diversification of the enzymes between the plant lineages. The expression of the genes showing different selective constraints was studied in Scots pine zygotic embryogenesis and early seedling development. We found that the arginine decarboxylase pathway is strongly preferred in putrescine production in the Scots pine as well as generally in conifers and that the reduced use of ornithine decarboxylase (ODC) has led to relaxed purifying selection in ODC genes. Thermospermine synthase (ACL5) genes evolve under strong purifying selection in conifers and the DAO gene is also highly conserved in pines. In developing Scots pine seeds, the expression of both ACL5 and DAO increased as embryogenesis proceeded. Strong ACL5 expression was present in the procambial cells of the embryo and in the megagametophyte cells destined to die via morphologically necrotic cell death. Thus, the high sequence conservation of ACL5 genes in conifers may indicate the necessity of ACL5 for both embryogenesis and vascular development. Moreover, the result suggests the involvement of ACL5 in morphologically necrotic cell death and supports the view of the genetic regulation of necrosis in Scots pine embryogenesis and in plant development. DAO transcripts were located close to the cell walls and between the walls of adjacent cells in Scots pine zygotic embryos and in the roots of young seedlings. We propose that DAO, in addition to the role in Put oxidation for providing H₂O₂ during the cell-wall structural processes, may also participate in cell-to-cell communication at the mRNA level. To conclude, our findings indicate that the PA pathway of Scots pines possesses several special functional characteristics wh

Published
2019

10. Scots pine aminopropyltransferases shed new light on evolution of the polyamine biosynthesis pathway in seed plants

Author

Vuosku, J. (Jaana), Karppinen, K. (Katja), Muilu-Mäkelä, R. (Riina), Kusano, T. (Tomonobu), Sagor, G. H. (G. H. M.), Avia, K. (Komlan), Alakärppä, E. (Emmi), Kestilä, J. (Johanna), Suokas, M. (Marko), Nickolov, K. (Kaloian), Hamberg, L. (Leena), Savolainen, O. (Outi), Häggman, H. (Hely), Sarjala, T. (Tytti), Vuosku, J. (Jaana), Karppinen, K. (Katja), Muilu-Mäkelä, R. (Riina), Kusano, T. (Tomonobu), Sagor, G. H. (G. H. M.), Avia, K. (Komlan), Alakärppä, E. (Emmi), Kestilä, J. (Johanna), Suokas, M. (Marko), Nickolov, K. (Kaloian), Hamberg, L. (Leena), Savolainen, O. (Outi), Häggman, H. (Hely), and Sarjala, T. (Tytti)

Abstract

Background and Aims: Polyamines are small metabolites present in all living cells and play fundamental roles in numerous physiological events in plants. The aminopropyltransferases (APTs), spermidine synthase (SPDS), spermine synthase (SPMS) and thermospermine synthase (ACL5), are essential enzymes in the polyamine biosynthesis pathway. In angiosperms, SPMS has evolved from SPDS via gene duplication, whereas in gymnosperms APTs are mostly unexplored and no SPMS gene has been reported. The present study aimed to investigate the functional properties of the SPDS and ACL5 proteins of Scots pine (Pinus sylvestris L.) in order to elucidate the role and evolution of APTs in higher plants. Methods: Germinating Scots pine seeds and seedlings were analysed for polyamines by high-performance liquid chromatography (HPLC) and the expression of PsSPDS and PsACL5 genes by in situ hybridization. Recombinant proteins of PsSPDS and PsACL5 were produced and investigated for functional properties. Also gene structures, promoter regions and phylogenetic relationships of PsSPDS and PsACL5 genes were analysed. Key Results: Scots pine tissues were found to contain spermidine, spermine and thermospermine. PsSPDS enzyme catalysed synthesis of both spermidine and spermine. PsACL5 was found to produce thermospermine, and PsACL5 gene expression was localized in the developing procambium in embryos and tracheary elements in seedlings. Conclusions: Contrary to previous views, our results demonstrate that SPMS activity is not a novel feature developed solely in the angiosperm lineage of seed plants but also exists as a secondary property in the Scots pine SPDS enzyme. The discovery of bifunctional SPDS from an evolutionarily old conifer reveals the missing link in the evolution of the polyamine biosynthesis pathway. The finding emphasizes the importance of pre-existing secondary functions in the evolution of new enzyme activities via gene duplication. Our results also associate PsACL5 wi

Published
2018

11. Coping with spring frost-effects on polyamine metabolism of Scots pine seedlings

Author

Muilu-Mäkelä, R. (Riina), Vuosku, J. (Jaana), Saarinen, M. (Markku), Hamberg, L. (Leena), Ruotsalainen, S. (Seppo), Häggman, H. (Hely), Sarjala, T. (Tytti), Muilu-Mäkelä, R. (Riina), Vuosku, J. (Jaana), Saarinen, M. (Markku), Hamberg, L. (Leena), Ruotsalainen, S. (Seppo), Häggman, H. (Hely), and Sarjala, T. (Tytti)

Abstract

Polyamines (PA) are ubiquitous polycations known to be involved in several phases of plant development as well as in tolerance to abiotic stresses. Phenols are complex secondary metabolites produced via the phenylpropanoid pathway that contain, e.g., cell wall compounds and antioxidants. Phenols are known to enhance chilling tolerance of plants. PA and phenolic pathways are connected via conjugation. In boreal coniferous forests spring frost has been considered to have severe effects on the survival of tree seedlings. Such effects are likely to increase in the future. The present study focuses on the role of PA and phenylpropanoid syntheses in the coping strategies of Scots pine exposed to cold temperatures during the vulnerable early seedling phase in late spring and early summer. We found that spring frost affects the expression of genes regulating PA metabolism and phenylpropanoid synthesis differently in above and below ground parts of the seedlings, whereas PA or phenol contents in tissues were not affected. The results suggest that Scots pine seedlings may not have time to develop metabolite level responses during a short period of freezing stress and, therefore, the originally different PA levels, especially in roots, may influence the tolerance of Scots pine seedlings to spring frost.

Published
2017

12. Polyamine metabolism of Scots pine under abiotic stress

Author

Häggman, H. (Hely), Sarjala, T. (Tytti), Muilu-Mäkelä, R. (Riina), Häggman, H. (Hely), Sarjala, T. (Tytti), and Muilu-Mäkelä, R. (Riina)

Abstract

Changes in climate will impose abiotic stress on plant species, and eventually affect their distributional range. This is a particular challenge especially to tree species with long generation times and slow rates of evolution. In the boreal zone, most of these species also hold high economic value. The aim of the study was to enhance understanding of the abiotic stress coping strategies of Scots pine (Pinus sylvestris L.) in its vulnerable early growth phase. In particular, the study evaluates the role of polyamine (PA) metabolism of Scots pine under abiotic stress. Polyamines (PAs) are small, ubiquitous nitrogenous compounds involved in fundamental biological processes of plants such as growth, organogenesis, embryogenesis and abiotic and biotic stress defence. The effects of different water availabilities and spring frost temperatures on shoots and roots of young seedlings were investigated in two growth chamber experiments. Proembryogenic liquid cell culture system was established and used as a controllable platform. Effects of polyethylene glycol (PEG) induced osmotic stress was investigated at the cellular level in liquid cultures. Responses to treatments were evaluated by quantifying changes in the expression of PA metabolism, stress, cell death and cell division -related genes, metabolite concentrations, as well as stress-induced physiology and morphology. The results revealed that PA metabolism is tissue specific and strictly regulated. Drought stress induced the accumulation of putrescine (Put) in photosynthesizing tissues, whereas the prime response to spring frost was a reorganization of root growth. Generally, drought and osmotic stress decreased the expression of PA catabolizing genes, leading to consistent PA levels in tissues even under severe stress. To conclude, PAs have a protective role in maintaining the growth and development of pine tissues subjected to abiotic stress., Tiivistelmä Ilmastonmuutos vaikuttaa eri kasvilajien levinneisyyteen. Nopeasti muuttuva ilmasto on haaste erityisesti metsäpuulajeille, jotka pitkän sukupolvenvälin takia kehittyvät evolutiivisesti hitaasti. Erilaisten ympäristötekijöiden aiheuttamien puolustusaineenvaihdunnan muutosten tunteminen metsäpuilla on tulevaisuuden kannalta myös taloudellisesti tärkeää. Työn tavoitteena oli selvittää millainen merkitys polyamiineilla on metsämännyn (Pinus sylvestris L.) abioottisessa stressivasteessa. Polyamiinit (PAt) ovat pienimolekyylisiä typpiyhdisteitä, joiden tiedetään olevan mukana solujen perusaineenvaihdunnassa, kasvien kasvussa ja kehityksessä ja stressivasteissa. Tutkimus koostuu kolmesta kokeesta, joissa selvitettiin PA aineenvaihduntaa osana männyn taimien ja erilaistumattomien somaattisista alkioista peräisin olevien soluviljelmien stressivasteita. Kahdessa kokeellisessa tutkimuksessa männyn sirkkataimia altistettiin erilaisille kasvualustan vesipitoisuuksille ja keväthallan lämpötilaolosuhteille. Kolmannessa kokeessa PA aineenvaihdunnan reagointia osmoottiseen stressiin tutkittiin erilaistumattomissa somaattisissa epäkypsissä männyn alkiosta peräisin olevissa solukoissa kontrolloidussa nesteviljely-ympäristössä. Tutkimuksessa tarkastelin PA aineenvaihduntaa säätelevien geenien ilmenemistä ja PA pitoisuuksien muutoksia suhteessa kasvuun, kehitykseen ja stressissä indusoituvien geenien ilmenemiseen. Tulokset osoittavat, että PA aineenvaihdunta on tiukasti säädeltyä erilaisissa solukoissa. Taimien yhteyttävät solukot kerryttivät putreskiinia (Put) kuivuudessa. Ensimmäiset vasteet keväthallaolosuhteisiin havaittiin muutoksena juurten kasvun säätelyssä. Sekä kuivuus että osmoottinen stressi laskevat PA hajottavien geenien ilmenemistä, mikä on metsämännyn tapa ylläpitää tasaiset PA pitoisuudet solukoissa stressitekijöistä huolimatta. Johtopäätöksenä voidaan todeta, että PA aineenvaihdunta on tärkeä metsämännyn kasvun ja kehityksen kannalta.

Published
2015

15. A matter of life and death - polyamine metabolism during zygotic embryogenesis of pine

Author

Häggman, H. (Hely), Sarjala, T. (Tytti), Jokela, A. (Anne), Vuosku, J. (Jaana), Häggman, H. (Hely), Sarjala, T. (Tytti), Jokela, A. (Anne), and Vuosku, J. (Jaana)

Abstract

The study gathered information about polyamine metabolism throughout the Scots pine (Pinus sylvestris L.) zygotic embryogenesis and about physiological events occurring simultaneously in the megagametophyte tissue. Additionally, novel sequence data of the Scots pine polyamine genes were used for studying the evolution of polyamine genes in plants. Phylogenetic analyses revealed that the eukaryotic ornithine decarboxylase (ODC) might have evolved from a multifunctional bacterial progenitor. In conifers, the alternative arginine decarboxylase (ADC) pathway is preferred in putrescine biosynthesis, which may have caused the relaxed purifying selection in the ODC genes. The phylogenetic analysis of spermidine synthase (SPDS), spermine synthase (SPMS) and thermospermine synthase (ACL5) sequences supported the view that eukaryotic SPDS genes are derived from a common ancestor, whereas SPMS genes have evolved several times from SPDS genes. The identified Scots pine sequence was defined as a putative thermospermine synthase (TSPMS) encoding gene and named PsACL5. The phylogenetic analysis of polyamine oxidase (PAO) sequences supported the view that plants possess several different PAOs, which may have different catalytic properties. The consistency of the polyamine concentration profiles during Scots pine zygotic embryogenesis suggested that polyamines have an important role in the embryo development and that individual polyamines may have different roles at different developmental stages. Generally, the polyamine concentrations increased at the early stages but decreased at the late stages of embryo development. Only the free putrescine fraction remained stable throughout the embryo development. Putrescine was almost solely produced via the ADC pathway and the ADC enzyme was at least partially transcriptionally regulated. Both ADC mRNA transcripts and ADC protein localized in dividing cells of embryos, which implicated the essential role of ADC in the mitosis of pl, Tiivistelmä Työssä tutkittiin polyamiiniaineenvaihduntaa ja megagametofyyttisolukossa tapahtuvia fysiologisia muutoksia metsämännyn (Pinus sylvestris L.) alkionkehityksen aikana. Polyamiineja (putreskiini, spermidiini ja spermiini) syntetisoivia ja hajottavia entsyymejä koodaavien geenien emäsjärjestys selvitettiin metsämännystä. Sekvenssejä käytettiin kasvien polyamiinigeenien evoluution tutkimiseen. Tutkimuksessa todettiin, että eukaryooteissa putreskiinin biosynteesistä vastaava entsyymi, ornitiinidekarboksylaasi (ODC), on voinut kehittyä bakteerien lysiinikarboksylaasista (LDC), joka dekarboksyloi sekä ornitiinia että lysiiniä. Kasveissa putreskiinia voidaan tuottaa myös arginiinidekarboksylaasin (ADC) kautta, mikä on johtanut ODC-geeneihin kohdistuvan puhdistavan valinnan heikentymiseen. Aminopropyyli-ryhmiä liittävien entsyymien osalta tutkimus tukee käsitystä, jonka mukaan eukaryoottiset spermidiinisyntaasit (SPDS) ovat kehittyneet yhteisestä kantamuodosta, kun taas spermiinisyntaasi (SPMS) on syntynyt useita kertoja SPDS-geenin kahdentumisen kautta. Metsämännystä tunnistettiin termospermiinisyntaasia (TSPMS) koodaava geeni, jolle annettiin nimeksi PsACL5. Fylogeneettisen analyysin perusteella kasveissa on useita erilaisia polyamiinien hajotuksesta vastaavia polyamiinioksidaaseja (PAO), joiden katalyyttiset ominaisuudet voivat poiketa toisistaan. Metsämännyllä polyamiinipitoisuudet vaihtelivat alkionkehitysvaiheen mukaan yhdenmukaisesti eri vuosina, mikä viittaa polyamiinien tärkeään rooliin alkionkehityksessä. Polyamiinipitoisuudet kasvoivat varhaisen ja pienenivät myöhäisen alkionkehityksen aikana lukuun ottamatta vapaan putreskiinin pitoisuutta, joka pysyi samana koko alkionkehityksen ajan. Putreskiinia tuotettiin alkioissa lähes pelkästään ADC-reitin kautta, ja ADC-entsyymin säätelyn todettiin tapahtuvan ainakin osittain transkription tasolla. Koska sekä ADC-geenin lähetti-RNA että ADC-entsyymi löytyivät alkion jakautuvista soluista, on ilmeistä, että ADC

Published
2011

17. Advancing the use of minirhizotrons in wetlands

Author

Iversen, C. M., primary, Murphy, M. T., additional, Allen, M. F., additional, Childs, J., additional, Eissenstat, D. M., additional, Lilleskov, E. A., additional, Sarjala, T. M., additional, Sloan, V. L., additional, and Sullivan, P. F., additional

Published
2011
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25. Nitrate metabolism in Scots pine seedlings during their first growing season.

Author

Sarjala, T, Raitio, R, and Turkki, E M

Abstract

Fluctuations in nitrate reductase activity (NRA), nitrate, nitrite, protein and total nitrogen content of bare-root Scots pine seedlings (Pinus sylvestris L.) raised outdoors were investigated during the first growing season. Nitrate reductase activity was higher in roots than in needles, whereas NO(3) (-) content was higher in needles than in roots and increased in both from June to October. Nitrate reductase activity in roots correlated more closely with NO(3) (-) N in the soil than did NO(3) (-) in the roots. In autumn, there was a closer correlation between foliar NRA and NO(3) (-) in the needles than with NO(3) (-)-N in the soil. Nitrite was not detected in the seedlings during the growing season. Total nitrogen content decreased toward the autumn, whereas protein content initially decreased but increased again in autumn. Acrylic netting placed above the seedlings increased both air and soil temperatures and apparently accelerated the use of nitrate.

Published
1987
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27. Polyamine metabolism of Scots pine under abiotic stress

Author

Muilu-Mäkelä, R. (Riina), Häggman, H. (Hely), and Sarjala, T. (Tytti)

Subjects
abiotic stress, polyamines, polyamiinit, embryogenic cells, fenyylipropanoidit, geenien ilmentyminen, liquid cell culture, abioottinen stressi, erilaistumaton somaattinen alkiosolukko, nesteviljely, Scots pine, gene expression, metsämänty, development, phenylpropanoids
Abstract

Changes in climate will impose abiotic stress on plant species, and eventually affect their distributional range. This is a particular challenge especially to tree species with long generation times and slow rates of evolution. In the boreal zone, most of these species also hold high economic value. The aim of the study was to enhance understanding of the abiotic stress coping strategies of Scots pine (Pinus sylvestris L.) in its vulnerable early growth phase. In particular, the study evaluates the role of polyamine (PA) metabolism of Scots pine under abiotic stress. Polyamines (PAs) are small, ubiquitous nitrogenous compounds involved in fundamental biological processes of plants such as growth, organogenesis, embryogenesis and abiotic and biotic stress defence. The effects of different water availabilities and spring frost temperatures on shoots and roots of young seedlings were investigated in two growth chamber experiments. Proembryogenic liquid cell culture system was established and used as a controllable platform. Effects of polyethylene glycol (PEG) induced osmotic stress was investigated at the cellular level in liquid cultures. Responses to treatments were evaluated by quantifying changes in the expression of PA metabolism, stress, cell death and cell division -related genes, metabolite concentrations, as well as stress-induced physiology and morphology. The results revealed that PA metabolism is tissue specific and strictly regulated. Drought stress induced the accumulation of putrescine (Put) in photosynthesizing tissues, whereas the prime response to spring frost was a reorganization of root growth. Generally, drought and osmotic stress decreased the expression of PA catabolizing genes, leading to consistent PA levels in tissues even under severe stress. To conclude, PAs have a protective role in maintaining the growth and development of pine tissues subjected to abiotic stress. Tiivistelmä Ilmastonmuutos vaikuttaa eri kasvilajien levinneisyyteen. Nopeasti muuttuva ilmasto on haaste erityisesti metsäpuulajeille, jotka pitkän sukupolvenvälin takia kehittyvät evolutiivisesti hitaasti. Erilaisten ympäristötekijöiden aiheuttamien puolustusaineenvaihdunnan muutosten tunteminen metsäpuilla on tulevaisuuden kannalta myös taloudellisesti tärkeää. Työn tavoitteena oli selvittää millainen merkitys polyamiineilla on metsämännyn (Pinus sylvestris L.) abioottisessa stressivasteessa. Polyamiinit (PAt) ovat pienimolekyylisiä typpiyhdisteitä, joiden tiedetään olevan mukana solujen perusaineenvaihdunnassa, kasvien kasvussa ja kehityksessä ja stressivasteissa. Tutkimus koostuu kolmesta kokeesta, joissa selvitettiin PA aineenvaihduntaa osana männyn taimien ja erilaistumattomien somaattisista alkioista peräisin olevien soluviljelmien stressivasteita. Kahdessa kokeellisessa tutkimuksessa männyn sirkkataimia altistettiin erilaisille kasvualustan vesipitoisuuksille ja keväthallan lämpötilaolosuhteille. Kolmannessa kokeessa PA aineenvaihdunnan reagointia osmoottiseen stressiin tutkittiin erilaistumattomissa somaattisissa epäkypsissä männyn alkiosta peräisin olevissa solukoissa kontrolloidussa nesteviljely-ympäristössä. Tutkimuksessa tarkastelin PA aineenvaihduntaa säätelevien geenien ilmenemistä ja PA pitoisuuksien muutoksia suhteessa kasvuun, kehitykseen ja stressissä indusoituvien geenien ilmenemiseen. Tulokset osoittavat, että PA aineenvaihdunta on tiukasti säädeltyä erilaisissa solukoissa. Taimien yhteyttävät solukot kerryttivät putreskiinia (Put) kuivuudessa. Ensimmäiset vasteet keväthallaolosuhteisiin havaittiin muutoksena juurten kasvun säätelyssä. Sekä kuivuus että osmoottinen stressi laskevat PA hajottavien geenien ilmenemistä, mikä on metsämännyn tapa ylläpitää tasaiset PA pitoisuudet solukoissa stressitekijöistä huolimatta. Johtopäätöksenä voidaan todeta, että PA aineenvaihdunta on tärkeä metsämännyn kasvun ja kehityksen kannalta.

Published
2015

28. A matter of life and death - polyamine metabolism during zygotic embryogenesis of pine

Author

Vuosku, J. (Jaana), Häggman, H. (Hely), Sarjala, T. (Tytti), and Jokela, A. (Anne)

Subjects
kehityksellinen solukuolema, megagametophyte, evoluutio, siemenen kehitys, Pinus, necrotic cell death, in situ hybridisaatio, polyamiini, in situ mRNA hybridization, nekroottinen solukuolema, polyamine, evolution, developmental cell death, embryogenesis, alkionkehitys, megagametofyytti, seed development
Abstract

The study gathered information about polyamine metabolism throughout the Scots pine (Pinus sylvestris L.) zygotic embryogenesis and about physiological events occurring simultaneously in the megagametophyte tissue. Additionally, novel sequence data of the Scots pine polyamine genes were used for studying the evolution of polyamine genes in plants. Phylogenetic analyses revealed that the eukaryotic ornithine decarboxylase (ODC) might have evolved from a multifunctional bacterial progenitor. In conifers, the alternative arginine decarboxylase (ADC) pathway is preferred in putrescine biosynthesis, which may have caused the relaxed purifying selection in the ODC genes. The phylogenetic analysis of spermidine synthase (SPDS), spermine synthase (SPMS) and thermospermine synthase (ACL5) sequences supported the view that eukaryotic SPDS genes are derived from a common ancestor, whereas SPMS genes have evolved several times from SPDS genes. The identified Scots pine sequence was defined as a putative thermospermine synthase (TSPMS) encoding gene and named PsACL5. The phylogenetic analysis of polyamine oxidase (PAO) sequences supported the view that plants possess several different PAOs, which may have different catalytic properties. The consistency of the polyamine concentration profiles during Scots pine zygotic embryogenesis suggested that polyamines have an important role in the embryo development and that individual polyamines may have different roles at different developmental stages. Generally, the polyamine concentrations increased at the early stages but decreased at the late stages of embryo development. Only the free putrescine fraction remained stable throughout the embryo development. Putrescine was almost solely produced via the ADC pathway and the ADC enzyme was at least partially transcriptionally regulated. Both ADC mRNA transcripts and ADC protein localized in dividing cells of embryos, which implicated the essential role of ADC in the mitosis of plant cells. The megagametophyte was viable from the early phases of embryo development until the early germination of mature seeds. However, the megagametophyte cells in the narrow embryo surrounding region (ESR) died via morphologically necrotic cell death. In the dying cells, extensive nucleic acid fragmentation caused the unspecific hybridization of probes in an in situ mRNA hybridization assay. The occurrence of necrotic cell death in Scots pine embryogenesis indicated that developmentally and physiologically regulated necrotic cell death is evolutionarily conserved and exists also in plants. Tiivistelmä Työssä tutkittiin polyamiiniaineenvaihduntaa ja megagametofyyttisolukossa tapahtuvia fysiologisia muutoksia metsämännyn (Pinus sylvestris L.) alkionkehityksen aikana. Polyamiineja (putreskiini, spermidiini ja spermiini) syntetisoivia ja hajottavia entsyymejä koodaavien geenien emäsjärjestys selvitettiin metsämännystä. Sekvenssejä käytettiin kasvien polyamiinigeenien evoluution tutkimiseen. Tutkimuksessa todettiin, että eukaryooteissa putreskiinin biosynteesistä vastaava entsyymi, ornitiinidekarboksylaasi (ODC), on voinut kehittyä bakteerien lysiinikarboksylaasista (LDC), joka dekarboksyloi sekä ornitiinia että lysiiniä. Kasveissa putreskiinia voidaan tuottaa myös arginiinidekarboksylaasin (ADC) kautta, mikä on johtanut ODC-geeneihin kohdistuvan puhdistavan valinnan heikentymiseen. Aminopropyyli-ryhmiä liittävien entsyymien osalta tutkimus tukee käsitystä, jonka mukaan eukaryoottiset spermidiinisyntaasit (SPDS) ovat kehittyneet yhteisestä kantamuodosta, kun taas spermiinisyntaasi (SPMS) on syntynyt useita kertoja SPDS-geenin kahdentumisen kautta. Metsämännystä tunnistettiin termospermiinisyntaasia (TSPMS) koodaava geeni, jolle annettiin nimeksi PsACL5. Fylogeneettisen analyysin perusteella kasveissa on useita erilaisia polyamiinien hajotuksesta vastaavia polyamiinioksidaaseja (PAO), joiden katalyyttiset ominaisuudet voivat poiketa toisistaan. Metsämännyllä polyamiinipitoisuudet vaihtelivat alkionkehitysvaiheen mukaan yhdenmukaisesti eri vuosina, mikä viittaa polyamiinien tärkeään rooliin alkionkehityksessä. Polyamiinipitoisuudet kasvoivat varhaisen ja pienenivät myöhäisen alkionkehityksen aikana lukuun ottamatta vapaan putreskiinin pitoisuutta, joka pysyi samana koko alkionkehityksen ajan. Putreskiinia tuotettiin alkioissa lähes pelkästään ADC-reitin kautta, ja ADC-entsyymin säätelyn todettiin tapahtuvan ainakin osittain transkription tasolla. Koska sekä ADC-geenin lähetti-RNA että ADC-entsyymi löytyivät alkion jakautuvista soluista, on ilmeistä, että ADC-entsyymillä on tärkeä tehtävä kasvisolujen mitoosissa. Megagametofyytti säilyi elossa koko alkionkehityksen ajan lukuun ottamatta alkio-onteloa reunustavia soluja, jotka olivat morfologialtaan nekroottisia. Nukleiinihappojen voimakas pilkkoutuminen aiheutti soluissa koettimien epäspesifisen sitoutumisen, kun geenien ilmenemistä paikannettiin lähetti-RNA:han in situ hybridisaatio-menetelmällä. Tutkimuksessa löydetty männyn alkiokehitykseen liittyvä nekroottinen solukuolema osoitti ensimmäistä kertaa, että fysiologista ja kehityksellistä nekroottista solukuolemaa esiintyy myös kasveissa.

Published
2011

29. Antibacterial and Oxidative Stress-Protective Effects of Five Monoterpenes from Softwood.

Author

Muilu-Mäkelä R, Aapola U, Tienaho J, Uusitalo H, and Sarjala T

Subjects
Anti-Bacterial Agents pharmacology, Antioxidants pharmacology, Escherichia coli, Humans, Hydrogen Peroxide pharmacology, Microbial Sensitivity Tests, Oxidative Stress, Monoterpenes pharmacology, Oils, Volatile pharmacology
Abstract

Volatile organic compounds (VOC) affect the quality of indoor air. Terpenes and especially monoterpenes are the main molecules emitted from softwood material (coniferous species), which is widely used in construction. The corneal epithelium is one of the first human membranes to encounter VOCs in the air. Moreover, the industrial use of pleasant-scented monoterpenes in cosmetics, food, and detergents exposes people to monoterpenes in their daily lives. In the present study, the health effective properties of five monoterpenes from softwood were tested; cytotoxicity and oxidative stress-protective effects of α- and β-pinenes, R- and S-limonene, and 3-carene were tested in a human corneal epithelial (HCE) cell model system and with two additional in vitro antioxidant tests: oxygen radical absorbance capacity (ORAC) and hydrogen peroxide (H 2 O 2 ) scavenging. Antibacterial efficacies were tested with two bioluminescent bacterial biosensor strains ( Escherichia coli K12+pcGLS11 and Staphylococcus aureus RN4220+pAT19) and with minimum inhibitory concentration (MIC) test against Escherichia coli . Only very high concentrations of monoterpenes (0.3-0.5 mg/mL) demonstrated cytotoxicity against HCE cells. Contrary to the original hypothesis, monoterpenes did not exhibit strong antioxidant properties in tested concentrations. However, biosensors and MIC tests indicated clear antibacterial activities for all tested monoterpenes.

Published
2022
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30. Salix spp. Bark Hot Water Extracts Show Antiviral, Antibacterial, and Antioxidant Activities-The Bioactive Properties of 16 Clones.

Author

Tienaho J, Reshamwala D, Sarjala T, Kilpeläinen P, Liimatainen J, Dou J, Viherä-Aarnio A, Linnakoski R, Marjomäki V, and Jyske T

Abstract

Earlier studies have shown that the bark of Salix L. species (Salicaceae family) is rich in extractives, such as diverse bioactive phenolic compounds. However, we lack knowledge on the bioactive properties of the bark of willow species and clones adapted to the harsh climate conditions of the cool temperate zone. Therefore, the present study aimed to obtain information on the functional profiles of northern willow clones for the use of value-added bioactive solutions. Of the 16 willow clones studied here, 12 were examples of widely distributed native Finnish willow species, including dark-leaved willow ( S. myrsinifolia Salisb.) and tea-leaved willow ( S. phylicifolia L.) (3 + 4 clones, respectively) and their natural and artificial hybrids (3 + 2 clones, respectively). The four remaining clones were commercial willow varieties from the Swedish willow breeding program. Hot water extraction of bark under mild conditions was carried out. Bioactivity assays were used to screen antiviral, antibacterial, antifungal, yeasticidal, and antioxidant activities, as well as the total phenolic content of the extracts. Additionally, we introduce a fast and less labor-intensive steam-debarking method for Salix spp. feedstocks. Clonal variation was observed in the antioxidant properties of the bark extracts of the 16 Salix spp. clones. High antiviral activity against a non-enveloped enterovirus, coxsackievirus A9, was found, with no marked differences in efficacy between the native clones. All the clones also showed antibacterial activity against Staphylococcus aureus and Escherichia coli , whereas no antifungal ( Aspergillus brasiliensis ) or yeasticidal ( Candida albicans ) efficacy was detected. When grouping the clone extract results into Salix myrsinifolia , Salix phylicifolia , native hybrid, artificial hybrid, and commercial clones, there was a significant difference in the activities between S. phylicifolia clone extracts and commercial clone extracts in the favor of S. phylicifolia in the antibacterial and antioxidant tests. In some antioxidant tests, S. phylicifolia clone extracts were also significantly more active than artificial clone extracts. Additionally, S. myrsinifolia clone extracts showed significantly higher activities in some antioxidant tests than commercial clone extracts and artificial clone extracts. Nevertheless, the bark extracts of native Finnish willow clones showed high bioactivity. The obtained knowledge paves the way towards developing high value-added biochemicals and other functional solutions based on willow biorefinery approaches., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Tienaho, Reshamwala, Sarjala, Kilpeläinen, Liimatainen, Dou, Viherä-Aarnio, Linnakoski, Marjomäki and Jyske.)

Published
2021
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31. Site fertility and soil water-table level affect fungal biomass production and community composition in boreal peatland forests.

Author

Peltoniemi K, Adamczyk S, Fritze H, Minkkinen K, Pennanen T, Penttilä T, Sarjala T, and Laiho R

Subjects
Biomass, Ecosystem, Fertility, Forests, Fungi, Soil, Soil Microbiology, Water, Groundwater, Mycorrhizae
Abstract

A substantial amount of below-ground carbon (C) is suggested to be associated with fungi, which may significantly affect the soil C balance in forested ecosystems. Ergosterol from in-growth mesh bags and litterbags was used to estimate fungal biomass production and community composition in drained peatland forests with differing fertility. Extramatrical mycelia (EMM) biomass production was generally higher in the nutrient-poor site, increased with deeper water table level and decreased along the length of the recovery time. EMM biomass production was of the same magnitude as in mineral-soil forests. Saprotrophic fungal biomass production was higher in the nutrient-rich site. Both ectomycorrhizal (ECM) and saprotrophic fungal community composition changed according to site fertility and water table level. ECM fungal community composition with different exploration types may explain the differences in fungal biomass production between peatland forests. Melanin-rich Hyaloscypha may indicate decreased turnover of biomass in nutrient-rich young peatland forest. Genera Lactarius and Laccaria may be important in nutrient rich and Piloderma in the nutrient-poor conditions, respectively. Furthermore, Paxillus involutus and Cortinarius sp. may be important generalists in all sites and responsible for EMM biomass production during the first summer months. Saprotrophs showed a functionally more diverse fungal community in the nutrient-rich site., (© 2020 Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published
2021
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32. Toxicological and bioactivity evaluation of blackcurrant press cake, sea buckthorn leaves and bark from Scots pine and Norway spruce extracts under a green integrated approach.

Author

Pap N, Reshamwala D, Korpinen R, Kilpeläinen P, Fidelis M, Furtado MM, Sant'Ana AS, Wen M, Zhang L, Hellström J, Marnilla P, Mattila P, Sarjala T, Yang B, Lima ADS, Azevedo L, Marjomäki V, and Granato D

Subjects
Anti-Infective Agents isolation & purification, Anti-Infective Agents toxicity, Anti-Inflammatory Agents isolation & purification, Anti-Inflammatory Agents toxicity, Antioxidants isolation & purification, Antioxidants toxicity, Bacteria drug effects, Candida albicans drug effects, Cell Line, Tumor, Enterovirus B, Human drug effects, Green Chemistry Technology, Hippophae chemistry, Humans, Microbial Sensitivity Tests, Picea chemistry, Pinus sylvestris chemistry, Plant Bark chemistry, Plant Extracts isolation & purification, Plant Extracts toxicity, Plant Leaves chemistry, Ribes chemistry, Anti-Infective Agents pharmacology, Anti-Inflammatory Agents pharmacology, Antioxidants pharmacology, Plant Extracts pharmacology
Abstract

Aqueous extracts from blackcurrant press cake (BC), Norway spruce bark (NS), Scots pine bark (SP), and sea buckthorn leaves (SB) were obtained using maceration and pressurized hot water and tested for their bioactivities. Maceration provided the extraction of higher dry matter contents, including total phenolics (TPC), anthocyanins, and condensed tannins, which also impacted higher antioxidant activity. NS and SB extracts presented the highest mean values of TPC and antioxidant activity. Individually, NS extract presented high contents of proanthocyanidins, resveratrol, and some phenolic acids. In contrast, SB contained a high concentration of ellagitannins, ellagic acid, and quercetin, explaining the antioxidant activity and antibacterial effects. SP and BC extracts had the lowest TPC and antioxidant activity. However, BC had strong antiviral efficacy, whereas SP can be considered a potential ingredient to inhibit α-amylase. Except for BC, the other extracts decreased reactive oxygen species (ROS) generation in HCT8 and A549 cells. Extracts did not inhibit the production of TNF-alpha in lipopolysaccharide-stimulated THP-1 macrophages but inhibited the ROS generation during the THP-1 cell respiratory burst. The recovery of antioxidant compounds from these by-products is incentivized for high value-added applications., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published
2021
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33. Field-Grown and In Vitro Propagated Round-Leaved Sundew ( Drosera rotundifolia L.) Show Differences in Metabolic Profiles and Biological Activities.

Author

Tienaho J, Reshamwala D, Karonen M, Silvan N, Korpela L, Marjomäki V, and Sarjala T

Subjects
A549 Cells, Cell Line, Cell Proliferation, Humans, In Vitro Techniques, Antioxidants pharmacology, Antiviral Agents pharmacology, Drosera chemistry, Metabolome drug effects, Plant Extracts pharmacology, Plant Leaves chemistry
Abstract

Drosera rotundifolia L. is a carnivorous plant used in traditional medicine for its therapeutic properties. Because of its small size, its collection in nature is laborious and different cultivation methods have been studied to ensure availability. However, only a few studies exist where the lab-grown sundew tissue and field-grown sundew would have been compared in their functionality or metabolic profiles. In this study, the antioxidant and antiviral activities of lab-grown and field-grown sundew extracts and their metabolic profiles are examined. The effect of drying methods on the chromatographic profile of the extracts is also shown. Antioxidant activity was significantly higher (5-6 times) in field-grown sundew but antiviral activity against enterovirus strains coxsackievirus A9 and B3 was similar in higher extract concentrations (cell viability ca. 90%). Metabolic profiles showed that the majority of the identified compounds were the same but field-grown sundew contained higher numbers and amounts of secondary metabolites. Freeze-drying, herbal dryer, and oven or room temperature drying of the extract significantly decreased the metabolite content from -72% up to -100%. Freezing was the best option to preserve the metabolic composition of the sundew extract. In conclusion, when accurately handled, the lab-grown sundew possesses promising antiviral properties, but the secondary metabolite content needs to be higher for it to be considered as a good alternative for the field-grown sundew.

Published
2021
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34. Polyamine Metabolism in Scots Pine Embryogenic Cells under Potassium Deficiency.

Author

Muilu-Mäkelä R, Vuosku J, Häggman H, and Sarjala T

Subjects
Cells, Cultured, Electric Conductivity, Gene Expression Regulation, Plant, Hydrogen-Ion Concentration, Pinus sylvestris embryology, Pinus sylvestris genetics, Potassium Deficiency genetics, Seedlings embryology, Seedlings genetics, Pinus sylvestris metabolism, Plant Diseases, Polyamines metabolism, Potassium metabolism, Potassium Deficiency metabolism, Seedlings metabolism, Stress, Physiological
Abstract

Polyamines (PA) have a protective role in maintaining growth and development in Scots pine during abiotic stresses. In the present study, a controlled liquid Scots pine embryogenic cell culture was used for studying the responses of PA metabolism related to potassium deficiency. The transcription level regulation of PA metabolism led to the accumulation of putrescine (Put). Arginine decarboxylase ( ADC ) had an increased expression trend under potassium deficiency, whereas spermidine synthase ( SPDS ) expression decreased. Generally, free spermidine (Spd) and spermine (Spm)/ thermospermine (t-Spm) contents were kept relatively stable, mostly by the downregulation of polyamine oxidase (PAO ) expression. The low potassium contents in the culture medium decreased the potassium content of the cells, which inhibited cell mass growth, but did not affect cell viability. The reduced growth was probably caused by repressed metabolic activity and cell division, whereas there were no signs of H 2 O 2 -induced oxidative stress or increased cell death. The low intracellular content of K + decreased the content of Na + . The decrease in the pH of the culture medium indicated that H + ions were pumped out of the cells. Altogether, our findings emphasize the specific role(s) of Put under potassium deficiency and strict developmental regulation of PA metabolism in Scots pine.

Published
2021
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35. Stability and Photoisomerization of Stilbenes Isolated from the Bark of Norway Spruce Roots.

Author

Latva-Mäenpää H, Wufu R, Mulat D, Sarjala T, Saranpää P, and Wähälä K

Subjects
Fluorescence, Gas Chromatography-Mass Spectrometry, Isomerism, Solutions, Ultraviolet Rays, Light, Picea chemistry, Plant Bark chemistry, Plant Roots chemistry, Stilbenes chemistry, Stilbenes isolation & purification
Abstract

Stilbenes or stilbenoids, major polyphenolic compounds of the bark of Norway spruce ( Picea abies L. Karst), have potential future applications as drugs, preservatives and other functional ingredients due to their antioxidative, antibacterial and antifungal properties. Stilbenes are photosensitive and UV and fluorescent light induce trans to cis isomerisation via intramolecular cyclization. So far, the characterizations of possible new compounds derived from trans -stilbenes under UV light exposure have been mainly tentative based only on UV or MS spectra without utilizing more detailed structural spectroscopy techniques such as NMR. The objective of this work was to study the stability of biologically interesting and readily available stilbenes such as astringin and isorhapontin and their aglucones piceatannol and isorhapontigenin, which have not been studied previously. The effects of fluorescent and UV light and storage on the stability of trans stilbenes were assessed and the identification and characterisation of new compounds formed during our experiments were carried out by chromatographic (HPLC, GC) and spectroscopic techniques (UV, MS, NMR). The stilbenes undergo a trans to cis isomerisation under extended UV irradiation by intramolecular cyclisation (by the formation of a new C-C bond and the loss of two hydrogens) to phenanthrene structures. The characterised compounds are novel and not described previously.

Published
2021
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36. A panel of bioluminescent whole-cell bacterial biosensors for the screening for new antibacterial substances from natural extracts.

Author

Poikulainen E, Tienaho J, Sarjala T, and Santala V

Abstract

Whole-cell bacterial biosensors can be applied for the screening of antibacterial properties of extracts. We constructed a biosensor panel consisting of four different bacterial biosensor strains: Escherichia, Staphylococcus, Acinetobacter and Pseudomonas for expanded screening potential. The functionality of the panel was first evaluated with known antibacterial compounds: ethanol, naphthoquinones (juglone, lawsone, plumbagin) and a flavonoid (quercetin). Natural extracts comprise a vast source of potential new antibacterials for diverse functional purposes. To demonstrate the utilization of the panel for screening of a demanding sample material, round-leaved sundew (Drosera rotundifolia) extracts were used as an example. Differences between field- and laboratory originating sundew extracts could be detected. This demonstrates the efficiency of the developed biosensor panel in the rapid screening of the antibacterial properties of plant extracts., Competing Interests: Declaration of Competing Interest None., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published
2020
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37. Clonal Variation in the Bark Chemical Properties of Hybrid Aspen: Potential for Added Value Chemicals.

Author

Korkalo P, Korpinen R, Beuker E, Sarjala T, Hellström J, Kaseva J, Lassi U, and Jyske T

Subjects
Crosses, Genetic, Plant Bark genetics, Populus genetics, Plant Bark chemistry, Populus chemistry
Abstract

This study aims to promote comprehensive utilization of woody biomass by providing a knowledgebase on the utility of aspen bark as a new alternative source for fossil-based chemicals. The research focused on the analysis of clonal variation in: (1) major chemical components, i.e., hemicelluloses, cellulose, and lignin; (2) extraneous materials, i.e., bark extractives, and suberic acid; (3) condensed tannins content and composition; and (4) screening differences in antioxidative properties and total phenolic content of hot water extracts and ethanol-water extracts of hybrid aspen bark. Results of this study, the discovery of clonal variation in utilizable chemicals, pave the way for further research on added-value potential of under-utilized hybrid aspen and its bark. Clonal variation was found in notable part of chemicals with potential for utilization. Based on the results, an appropriate bark raw material can be selected for tailored processing, thus improving the resource efficiency. The results also indicate that by applying cascade processing concepts, bark chemical substances could be more efficiently utilized with more environmentally friendly methods.

Published
2020
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38. Fate of Antioxidative Compounds within Bark during Storage: A Case of Norway Spruce Logs.

Author

Jyske T, Brännström H, Sarjala T, Hellström J, Halmemies E, Raitanen JE, Kaseva J, Lagerquist L, Eklund P, and Nurmi J

Subjects
Antioxidants metabolism, Gas Chromatography-Mass Spectrometry, Picea metabolism, Plant Bark chemistry, Plant Bark metabolism, Plant Extracts chemistry, Proanthocyanidins chemistry, Seasons, Stilbenes chemistry, Time Factors, Antioxidants chemistry, Picea chemistry
Abstract

Softwood bark is an important by-product of forest industry. Currently, bark is under-utilized and mainly directed for energy production, although it can be extracted with hot water to obtain compounds for value-added use. In Norway spruce ( Picea abies [L.] Karst.) bark, condensed tannins and stilbene glycosides are among the compounds that comprise majority of the antioxidative extractives. For developing feasible production chain for softwood bark extractives, knowledge on raw material quality is critical. This study examined the fate of spruce bark tannins and stilbenes during storage treatment with two seasonal replications (i.e., during winter and summer). In the experiment, mature logs were harvested and stored outside. During six-month-storage periods, samples were periodically collected for chemical analysis from both inner and outer bark layers. Additionally, bark extractives were analyzed for antioxidative activities by FRAP, ORAC, and H 2 O 2 scavenging assays. According to the results, stilbenes rapidly degraded during storage, whereas tannins were more stable: only 5-7% of the original stilbene amount and ca. 30-50% of the original amount of condensed tannins were found after 24-week-storage. Summer conditions led to the faster modification of bark chemistry than winter conditions. Changes in antioxidative activity were less pronounced than those of analyzed chemical compounds, indicating that the derivatives of the compounds contribute to the antioxidative activity. The results of the assays showed that, on average, ca. 27% of the original antioxidative capacity remained 24 weeks after the onset of the storage treatment, while a large variation (2-95% of the original capacity remaining) was found between assays, seasons, and bark layers. Inner bark preserved its activities longer than outer bark, and intact bark attached to timber is expected to maintain its activities longer than a debarked one. Thus, to ensure prolonged quality, no debarking before storage is suggested: outer bark protects the inner bark, and debarking enhances the degradation.

Published
2020
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39. Sprouts and Needles of Norway Spruce ( Picea abies (L.) Karst.) as Nordic Specialty-Consumer Acceptance, Stability of Nutrients, and Bioactivities during Storage.

Author

Jyske T, Järvenpää E, Kunnas S, Sarjala T, Raitanen JE, Mäki M, Pastell H, Korpinen R, Kaseva J, and Tupasela T

Subjects
Antioxidants pharmacology, Ascorbic Acid chemistry, Finland, Food Handling methods, Magnesium chemistry, Norway, Phosphorus chemistry, Picea microbiology, Plant Leaves chemistry, Potassium chemistry, Powders, Vitamins, Food Analysis methods, Food Industry methods, Picea chemistry, Plant Shoots chemistry
Abstract

Developing shoots, i.e., sprouts, and older needles of Norway spruce ( Picea abies (L.) Karst.) have traditionally been used for medicinal purposes due to the high content of vitamins and antioxidants. Currently, sprouts are available as, for example, superfood and supplements. However, end-product quality and nutritive value may decline in the value-chain from raw material sourcing to processing and storage. We studied (1) impacts of different drying and extraction methods on nutritional composition and antioxidative properties of sprouts and needles, (2) differences between sprouts and needles in nutritional composition and microbiological quality, and (3) production scale quality of the sprouts. Additionally, (4) sprout powder was applied in products (ice-cream and sorbet) and consumer acceptance was evaluated. According to our results, older needles have higher content of dry matter, energy, and calcium, but lower microbial quality than sprouts. Sprouts showed a higher concentration of vitamin C, magnesium, potassium, and phosphorus than older needles. Freeze-drying was the best drying method preserving the quality of both sprouts and needles, e.g., vitamin C content. The antioxidative activity of the sprout extracts were lower than that of needles. Ethanol-water extraction resulted in a higher content of active compounds in the extract than water extraction. Sensory evaluation of food products revealed that on average, 76% of consumers considered sprout-containing products very good or good, and a creamy product was preferred over a water-based sorbet.

Published
2020
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40. Bioactive Properties of the Aqueous Extracts of Endophytic Fungi Associated with Scots Pine (Pinus sylvestris) Roots.

Author

Tienaho J, Karonen M, Muilu-Mäkelä R, Kaseva J, de Pedro N, Vicente F, Genilloud O, Aapola U, Uusitalo H, Vuolteenaho K, Franzén R, Wähälä K, Karp M, Santala V, and Sarjala T

Subjects
Fungi, Metabolome, Plant Roots, Plants, Ascomycota, Pinus, Pinus sylvestris
Abstract

Despite the continuing interest in various plant and natural products, only a small portion of the biologically active compounds from nature has been discovered and exploited. In this study, antioxidant and antibacterial properties of aqueous fractions of three endophytic fungi isolated from the roots of 8-year-old Scots pines ( Pinus sylvestris ) growing on a drained peatland were investigated. The endophytic fungi species were Acephala applanata, Phialocephala fortinii , and Humicolopsis cephalosporioides / Coniochaeta mutabilis . The bioactivities were examined using hydrogen peroxide scavenging and oxygen radical absorbance capacity tests as well as sensitive Escherichia coli -based biosensors, which produce a luminescent signal in the presence of substances with oxidative or genotoxic properties. In addition, cell models for Parkinson's disease, age-related macular degeneration, and osteoarthritis were used to evaluate the potential for pharmaceutical applications. The aqueous extracts of fungi and 19 out of 42 fractions were found to be active in one or more of the tests used. However, no activity was found in the age-related macular degeneration and osteoarthritis cell model tests. Additionally, bioactivity data was connected with metabolites putatively annotated, and out of 330 metabolites, 177 were interesting in view of the bioactivities investigated. A majority of these were peptides and all three fungal species shared a highly similar metabolome. We propose that Scots pine endophytic fungi are a rich source of interesting metabolites, and synergistic effects may cause the bioactivities, as they were found to vary after the fractionation process., Competing Interests: The authors declare that they have no conflict of interest., (Thieme. All rights reserved.)

Published
2020
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41. Thermospermine Synthase ( ACL5 ) and Diamine Oxidase ( DAO ) Expression Is Needed for Zygotic Embryogenesis and Vascular Development in Scots Pine.

Author

Vuosku J, Muilu-Mäkelä R, Avia K, Suokas M, Kestilä J, Läärä E, Häggman H, Savolainen O, and Sarjala T

Abstract

Unlike in flowering plants, the detailed roles of the enzymes in the polyamine (PA) pathway in conifers are poorly known. We explored the sequence conservation of the PA biosynthetic genes and diamine oxidase ( DAO ) in conifers and flowering plants to reveal the potential functional diversification of the enzymes between the plant lineages. The expression of the genes showing different selective constraints was studied in Scots pine zygotic embryogenesis and early seedling development. We found that the arginine decarboxylase pathway is strongly preferred in putrescine production in the Scots pine as well as generally in conifers and that the reduced use of ornithine decarboxylase (ODC) has led to relaxed purifying selection in ODC genes. Thermospermine synthase ( ACL5 ) genes evolve under strong purifying selection in conifers and the DAO gene is also highly conserved in pines. In developing Scots pine seeds, the expression of both ACL5 and DAO increased as embryogenesis proceeded. Strong ACL5 expression was present in the procambial cells of the embryo and in the megagametophyte cells destined to die via morphologically necrotic cell death. Thus, the high sequence conservation of ACL5 genes in conifers may indicate the necessity of ACL5 for both embryogenesis and vascular development. Moreover, the result suggests the involvement of ACL5 in morphologically necrotic cell death and supports the view of the genetic regulation of necrosis in Scots pine embryogenesis and in plant development. DAO transcripts were located close to the cell walls and between the walls of adjacent cells in Scots pine zygotic embryos and in the roots of young seedlings. We propose that DAO, in addition to the role in Put oxidation for providing H 2 O 2 during the cell-wall structural processes, may also participate in cell-to-cell communication at the mRNA level. To conclude, our findings indicate that the PA pathway of Scots pines possesses several special functional characteristics which differ from those of flowering plants., (Copyright © 2019 Vuosku, Muilu-Mäkelä, Avia, Suokas, Kestilä, Läärä, Häggman, Savolainen and Sarjala.)

Published
2019
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42. The Hydrophobicity of Lignocellulosic Fiber Network Can Be Enhanced with Suberin Fatty Acids.

Author

Korpinen RI, Kilpeläinen P, Sarjala T, Nurmi M, Saloranta P, Holmbom T, Koivula H, Mikkonen KS, Willför S, and Saranpää PT

Subjects
Betula chemistry, Hydrophobic and Hydrophilic Interactions, Mass Spectrometry, Microscopy, Electron, Scanning, Plant Bark chemistry, Fatty Acids chemistry, Lignin chemistry, Lipids chemistry
Abstract

Suberin fatty acids were extracted from outer bark of Silver birch ( Betula pendula Roth.) using an isopropanolic sodium hydroxide solution. Laboratory sheets composed of lignocellulosic fiber networks were prepared from unbleached and unrefined softwood kraft pulp and further impregnated with suberin fatty acid monomers and cured with maleic anhydride in ethanol solution. The treatment resulted in hydrophobic surfaces, in which the contact angles remained over 120 degrees during the entire measurement. The fiber network also retained its water vapor permeability and enhanced fiber-fiber bonding resulted in improved tensile strength of the sheets. Scanning electron microscopy (SEM) images revealed that the curing agent, together with suberin fatty acids, was evenly distributed on the fiber surfaces and smoothing occurred over the wrinkled microfibrillar structure. High concentrations of the curing agent resulted in globular structures containing betulinol derivates as revealed with time-of-flight secondary ion mass spectrometry (ToF-SIMS). Also, the larger amount of suberin fatty acid monomers slightly impaired the optical properties of sheets.

Published
2019
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43. Correction: Tienaho, J., et al. Metabolic Profiling of Water-Soluble Compounds from the Extracts of Dark Septate Endophytic Fungi (DSE) Isolated from Scots Pine ( Pinus sylvestris L.) Seedlings Using UPLC-Orbitrap-MS. Molecules 2019, 24 , 2330.

Author

Tienaho J, Karonen M, Muilu-Mäkelä R, Wähälä K, Denegri EL, Franzén R, Karp M, Santala V, and Sarjala T

Abstract

The authors wish to make the following corrections to this paper published in Molecules [...].

Published
2019
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44. Metabolic Profiling of Water-Soluble Compounds from the Extracts of Dark Septate Endophytic Fungi (DSE) Isolated from Scots Pine ( Pinus sylvestris L.) Seedlings Using UPLC-Orbitrap-MS.

Author

Tienaho J, Karonen M, Muilu-Mäkelä R, Wähälä K, Leon Denegri E, Franzén R, Karp M, Santala V, and Sarjala T

Abstract

Endophytes are microorganisms living inside plant hosts and are known to be beneficial for the host plant vitality. In this study, we isolated three endophytic fungus species from the roots of Scots pine seedlings growing on Finnish drained peatland setting. The isolated fungi belonged to dark septate endophytes (DSE). The metabolic profiles of the hot water extracts of the fungi were investigated using Ultrahigh Performance Liquid Chromatography with Diode Array Detection and Electron Spray Ionization source Mass Spectrometry with Orbitrap analyzer (UPLC-DAD-ESI-MS-Orbitrap). Out of 318 metabolites, we were able to identify 220, of which a majority was amino acids and peptides. Additionally, opine amino acids, amino acid quinones, Amadori compounds, cholines, nucleobases, nucleosides, nucleotides, siderophores, sugars, sugar alcohols and disaccharides were found, as well as other previously reported metabolites from plants or endophytes. Some differences of the metabolic profiles, regarding the amount and identity of the found metabolites, were observed even though the fungi were isolated from the same host. Many of the discovered metabolites have been described possessing biological activities and properties, which may make a favorable contribution to the host plant nutrient availability or abiotic and biotic stress tolerance.

Published
2019
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45. A Bioscreening Technique for Ultraviolet Irradiation Protective Natural Substances.

Author

Tienaho J, Poikulainen E, Sarjala T, Muilu-Mäkelä R, Santala V, and Karp M

Subjects
Ascorbic Acid pharmacology, DNA Damage, Dose-Response Relationship, Drug, Escherichia coli genetics, Escherichia coli metabolism, Escherichia coli radiation effects, Humans, Mutagenicity Tests, Organisms, Genetically Modified, Pinus, Plant Extracts isolation & purification, Skin radiation effects, Titanium pharmacology, Ultraviolet Rays, Xanthophylls pharmacology, Benzophenones toxicity, Biosensing Techniques, High-Throughput Screening Assays, Plant Extracts pharmacology, Plant Leaves chemistry, Sunscreening Agents toxicity
Abstract

Ultraviolet radiation (UV-R) causes genotoxic and aging effects on skin, and sunscreens are used to alleviate the damage. However, sunscreens contain synthetic shielding agents that can cause harmful effects in the environment. Nature-derived substances may have potential as replacement materials for the harmful sunscreen chemicals. However, screening of a broad range of samples is tedious, and often requires a separate genotoxicity assessment. We describe a simple microplate technique for the screening of UV protective substances using a recombinant Escherichia coli biosensor. Both absorbance-based and bioactivity-based shields can be detected with simultaneous information about the sample genotoxicity. With this technique, a controversial sunscreen compound, oxybenzone offers physical or absorbance-based shield but appears genotoxic at higher concentrations (3.3 mg/mL). We also demonstrate that pine needle extract (Pi Ne ) shields the biosensor from UV-R in a dose-dependent manner without showing genotoxicity. The physical shield of 5 mg/mL Pi Ne was similar to that of one of the most common UV-shielding compound TiO 2 concentration 0.80 mg/mL. The bioactivity-based shield of Pi Ne also reaches the extent of the physical shield with the highest concentration (3.3 mg/mL). We conclude that our technique is suitable in detecting the UV-shielding potential of natural substances, and gives simultaneous information on genotoxicity., (© 2018 The American Society of Photobiology.)

Published
2018
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46. Scots pine aminopropyltransferases shed new light on evolution of the polyamine biosynthesis pathway in seed plants.

Author

Vuosku J, Karppinen K, Muilu-Mäkelä R, Kusano T, Sagor GHM, Avia K, Alakärppä E, Kestilä J, Suokas M, Nickolov K, Hamberg L, Savolainen O, Häggman H, and Sarjala T

Subjects
Gene Expression Regulation, Plant genetics, In Situ Hybridization, Metabolic Networks and Pathways, Pinus sylvestris enzymology, Pinus sylvestris genetics, Promoter Regions, Genetic genetics, Seeds enzymology, Spermidine Synthase genetics, Spermine analogs & derivatives, Spermine metabolism, Spermine Synthase genetics, Spermine Synthase metabolism, Biological Evolution, Pinus sylvestris metabolism, Polyamines metabolism, Seeds metabolism, Spermidine Synthase metabolism
Abstract

Background and Aims: Polyamines are small metabolites present in all living cells and play fundamental roles in numerous physiological events in plants. The aminopropyltransferases (APTs), spermidine synthase (SPDS), spermine synthase (SPMS) and thermospermine synthase (ACL5), are essential enzymes in the polyamine biosynthesis pathway. In angiosperms, SPMS has evolved from SPDS via gene duplication, whereas in gymnosperms APTs are mostly unexplored and no SPMS gene has been reported. The present study aimed to investigate the functional properties of the SPDS and ACL5 proteins of Scots pine (Pinus sylvestris L.) in order to elucidate the role and evolution of APTs in higher plants., Methods: Germinating Scots pine seeds and seedlings were analysed for polyamines by high-performance liquid chromatography (HPLC) and the expression of PsSPDS and PsACL5 genes by in situ hybridization. Recombinant proteins of PsSPDS and PsACL5 were produced and investigated for functional properties. Also gene structures, promoter regions and phylogenetic relationships of PsSPDS and PsACL5 genes were analysed., Key Results: Scots pine tissues were found to contain spermidine, spermine and thermospermine. PsSPDS enzyme catalysed synthesis of both spermidine and spermine. PsACL5 was found to produce thermospermine, and PsACL5 gene expression was localized in the developing procambium in embryos and tracheary elements in seedlings., Conclusions: Contrary to previous views, our results demonstrate that SPMS activity is not a novel feature developed solely in the angiosperm lineage of seed plants but also exists as a secondary property in the Scots pine SPDS enzyme. The discovery of bifunctional SPDS from an evolutionarily old conifer reveals the missing link in the evolution of the polyamine biosynthesis pathway. The finding emphasizes the importance of pre-existing secondary functions in the evolution of new enzyme activities via gene duplication. Our results also associate PsACL5 with the development of vascular structures in Scots pine.

Published
2018
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47. Moderate stress responses and specific changes in polyamine metabolism characterize Scots pine somatic embryogenesis.

Author

Salo HM, Sarjala T, Jokela A, Häggman H, and Vuosku J

Subjects
Autophagy genetics, DNA Repair genetics, Gene Expression Regulation, Developmental, Gene Expression Regulation, Plant, Genes, Plant, Hydrogen Peroxide metabolism, Pinus sylvestris genetics, Solubility, Pinus sylvestris embryology, Pinus sylvestris metabolism, Polyamines metabolism, Stress, Physiological genetics
Abstract

Somatic embryogenesis (SE) is one of the methods with the highest potential for the vegetative propagation of commercially important coniferous species. However, many conifers, including Scots pine (Pinus sylvestris L.), are recalcitrant to SE and a better understanding of the mechanisms behind the SE process is needed. In Scots pine SE cultures, embryo production is commonly induced by the removal of auxin, addition of abscisic acid (ABA) and the desiccation of cell masses by polyethylene glycol (PEG). In the present study, we focus on the possible link between the induction of somatic embryo formation and cellular stress responses such as hydrogen peroxide protection, DNA repair, changes in polyamine (PA) metabolism and autophagy. Cellular PA contents and the expression of the PA metabolism genes arginine decarboxylase (ADC), spermidine synthase (SPDS), thermospermine synthase (ACL5) and diamine oxidase (DAO) were analyzed, as well as the expression of catalase (CAT), DNA repair genes (RAD51, KU80) and autophagy-related genes (ATG5, ATG8) throughout the induction of somatic embryo formation in Scots pine SE cultures. Among the embryo-producing SE lines, the expression of ADC, SPDS, ACL5, DAO, CAT, RAD51, KU80 and ATG8 showed consistent profiles. Furthermore, the overall low expression of the stress-related genes suggests that cells in those SE lines were not stressed but recognized the ABA+PEG treatment as a signal to trigger the embryogenic pathway. In those SE lines that were unable to produce embryos, cells seemed to experience the ABA+PEG treatment mostly as osmotic stress and activated a wide range of stress defense mechanisms. Altogether, our results suggest that the direction to the embryogenic pathway is connected with cellular stress responses in Scots pine SE cultures. Thus, the manipulation of stress response pathways may provide a way to enhance somatic embryo production in recalcitrant Scots pine SE lines., (© The Author 2016. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published
2016
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48. Method with high-throughput screening potential for antioxidative substances using Escherichia coli biosensor katG'::lux.

Author

Tienaho J, Sarjala T, Franzén R, and Karp M

Subjects
Catalase genetics, Catalase metabolism, Escherichia coli genetics, Escherichia coli Proteins genetics, Escherichia coli Proteins metabolism, Luciferases genetics, Luciferases metabolism, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Reproducibility of Results, Antioxidants analysis, Biosensing Techniques methods, Escherichia coli drug effects, High-Throughput Screening Assays methods
Abstract

A new method is described for the rapid real-time screening of antioxidative properties using a recombinant Escherichia coli DPD2511 biosensor. This microplate technique, without time-consuming pre-incubations and handling, has potential for a high-throughput search of bioactive compounds. Special emphasis was given to obtaining highly reliable and repeatable results., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published
2015
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49. Microbial ecology in a future climate: effects of temperature and moisture on microbial communities of two boreal fens.

Author

Peltoniemi K, Laiho R, Juottonen H, Kiikkilä O, Mäkiranta P, Minkkinen K, Pennanen T, Penttilä T, Sarjala T, Tuittila ES, Tuomivirta T, and Fritze H

Subjects
Archaea genetics, Archaea physiology, Arctic Regions, Basidiomycota genetics, Basidiomycota physiology, Ecosystem, Microbial Consortia genetics, Mortierella genetics, Mortierella physiology, Mycorrhizae genetics, RNA, Ribosomal, 16S genetics, Soil, Temperature, Climate Change, Microbial Consortia physiology, Soil Microbiology, Wetlands
Abstract

Impacts of warming with open-top chambers on microbial communities in wet conditions and in conditions resulting from moderate water-level drawdown (WLD) were studied across 0-50 cm depth in northern and southern boreal sedge fens. Warming alone decreased microbial biomass especially in the northern fen. Impact of warming on microbial PLFA and fungal ITS composition was more obvious in the northern fen and linked to moisture regime and sample depth. Fungal-specific PLFA increased in the surface peat in the drier regime and decreased in layers below 10 cm in the wet regime after warming. OTUs representing Tomentella and Lactarius were observed in drier regime and Mortierella in wet regime after warming in the northern fen. The ectomycorrhizal fungi responded only to WLD. Interestingly, warming together with WLD decreased archaeal 16S rRNA copy numbers in general, and fungal ITS copy numbers in the northern fen. Expectedly, many results indicated that microbial response on warming may be linked to the moisture regime. Results indicated that microbial community in the northern fen representing Arctic soils would be more sensitive to environmental changes. The response to future climate change clearly may vary even within a habitat type, exemplified here by boreal sedge fen., (© FEMS 2015. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2015
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50. Expression of catalase and retinoblastoma-related protein genes associates with cell death processes in Scots pine zygotic embryogenesis.

Author

Vuosku J, Sutela S, Kestilä J, Jokela A, Sarjala T, and Häggman H

Subjects
Catalase metabolism, Cell Death, Pinus sylvestris embryology, Plant Proteins metabolism, Retinoblastoma Protein metabolism, Seeds enzymology, Seeds genetics, Catalase genetics, Gene Expression Regulation, Plant, Pinus sylvestris enzymology, Pinus sylvestris genetics, Plant Proteins genetics, Retinoblastoma Protein genetics
Abstract

Background: The cell cycle and cellular oxidative stress responses are tightly controlled for proper growth and development of Scots pine (Pinus sylvestris L.) seed. Programmed cell death (PCD) is an integral part of the embryogenesis during which megagametophyte cells in the embryo surrounding region (ESR) and cells in the nucellar layers face death. In the present study, we show both the tissue and developmental stage specific expression of the genes encoding the autophagy related ATG5, catalase (CAT), and retinoblastoma related protein (RBR) as well as the connection between the gene expressions and cell death programs., Results: We found strong CAT expression in the cells of the developing embryo throughout the embryogenesis as well as in the cells of the megagametophyte and the nucellar layers at the early embryogeny. The CAT expression was found to overlap with both the ATG5 expression and hydrogen peroxide localization. At the late embryogeny, CAT expression diminished in the dying cells of the nucellar layers as well as in megagametophyte cells, showing the first signs of incipient cell death. Accumulation of starch and minor RBR expression were characteristic of megagametophyte cells in the ESR, whereas strong RBR expression was found in the cells of the nucellar layers at the late embryogeny., Conclusions: Our results suggest that ATG5, CAT, and RBR are involved in the Scots pine embryogenesis and cell death processes. CAT seems to protect cells against hydrogen peroxide accumulation and oxidative stress related cell death especially during active metabolism. The opposite expression of RBR in the ESR and nucellar layers alongside morphological characteristics emphasizes the different type of the cell death processes in these tissues. Furthermore, the changes in ATG5 and RBR expressions specifically in the megagametophyte cells dying by necrotic cell death suggest the genetic regulation of developmental necrosis in Scots pine embryogenesis.

Published
2015
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