联合作者(
Jan Červený Department of Adaptive Biotechnologies, Global Change Research Institute CAS, Czech Republic
2 protocols

Petra Očenášová Department of Adaptive Biotechnologies, Global Change Research Institute, Academy of Science of the Czech Republic, Czech Republic, Czech Republic,
1 protocol

Tomas Zavrel Department of Adaptive Biotechnologies, Global Change Research Institute CAS, Czech Republic
2 protocols

Alexandra G. Markelova Group of Ecophysiology of Microalgae, Institute of Plant Physiology RAS, Russia
1 protocol
联合评审(
Agnieszka Zienkiewicz Georg August University
14 protocols

Aksiniya Asenova University of California, Davis
13 protocols

Alexander B Westbye NIOZ Royal Netherlands Institute for Sea Research
6 protocols

Alexander M Jones Sainsbury Laboratory Cambridge University
1 protocol

编委
Maria A. Sinetova
  • Research scientist, Laboratory of Intracellular Regulation, Institute of Plant Physiology, Russian Academy of Sciences, Russia
研究方向
  • 植物科学
  • cyanobacteria, microalgae, regulation
  • 已发表 protocol 3

教育背景

PhD, Timiryazev Institute of Plant Physiology, Russian Academy of Sciences, 2010

实验室信息

Dmitry Los Lab
http://en.cellreg.org/

发表论文

1. Sinetova M.A., Bolakhan K., Sidorov R.A., Mironov K.S., Skrypnik A.N., Kupriyanova E.V., Zayadan B.K., Shumskaya M.A., Los D.A. (2017) Polyphasic characterization of the thermotolerant cyanobacterium Desertifilum sp. strain IPPAS B-1220. FEMS Microbiol. Lett. 364(4): fnx027.
2. Mironov K.S., Sinetova M.A., Bolatkhan K., Zayadan B.K., Ustinova V., Kupriyanova E.V., Skrypnik A.N., Gogoleva N.E., Gogolev Y.V., Los D.A. (2016) Draft genome sequence of the thermotolerant cyanobacterium Desertifilum sp. IPPAS B-1220. Genome Announc. 4(6):e01304-16. doi: 10.1128/genomeA.01304-16
3. Starikov A.Y., Usserbaeva A., Sinetova M.A., Sarsekeyeva F.K., Zayadan B.K., Ustinova V., Kupriyanova E.V., Los D.A., Mironov K.S. (2016) Draft genome sequence of Cyanobacterium sp. strain IPPAS B-1200 with unique fatty acid composition. Genome Announc. 4(6):e01306-16. doi: 10.1128/genomeA.01306-16
4. Zorina A., Sinetova M., Kupriyanova E.V., Mironov K.S., Molkova I., Nazarenko L.V., Zinchenko V.V., Los D.A. (2016) Synechocystis mutants defective in manganese uptake regulatory system, ManSR, are hypersensitive to strong light. Photosynth. Res. 130(1): 11-17. doi: 10.1007/s11120-015-0214-x
5. Sinetova M.A., Los D.A. (2016) Systemic analysis of transcriptomics of Synechocystis: common stress genes and their universal triggers. Molecular BioSystems 12: 3254-3258. http://dx.doi.org/10.1039/c6mb00551a
6. Sinetova M.A., Los D.A. (2016) New insights in cyanobacterial cold stress responses: Genes, sensors, and molecular triggers. Biochim. Biophys. Acta, General Subjects. 1860 (11, Part A): 2391–2403. http://dx.doi.org/10.1016/j.bbagen.2016.07.006.
7. 6.Sinetova M.A., Mironov K.S., Mustardy L., Shapiguzov A., Bachin D., Allakhverdiev S.I., Los D.A. (2015) Aquaporin-deficient mutant of Synechocystis is sensitive to salt and high-light stress. J. Photochem. Photobiol. B. Biol. 152:377-382 doi: 10.1016/j.jphotobiol.2015.07.012
8. Sarsekeyeva F., Zayadan B.K., Usserbaeva A., Bedbenov V.S., Sinetova M.A., Los D.A. (2015) Cyanofuels – biofuels from cyanobacteria: reality and perspectives. Photosynth. Res. 125: 329-340. doi: 10.1007/s11120-015-0103-3
9. Červený J., Sinetova M.A., Zavřel T., Los D.A. (2015) Mechanisms of high temperature resistance of Synechocystis sp. PCC 6803: an impact of histidine kinase 34. Life 5(1): 676-699. doi: 10.3390/life5010676
10. Zavřel T., Sinetova M.A., Búzová D., Literáková P., Červený J. (2015) Characterization of a model cyanobacterium Synechocystis sp. PCC 6803 autotrophic growth in a flat-panel photobioreactor. Engineering in Life Sciences 1: 122-132. doi: 10.1002/elsc.201300165
11. Červený J., Sinetova M.A., Valledor L., Sherman L.A., Nedbal L. (2013) Ultradian metabolic rhythm in the diazotrophic cyanobacterium Cyanothece sp. ATCC 51142. PNAS 110:13210-13215 IF 2012 9.737 http://www.pnas.org/content/early/2013/07/19/1301171110 (Scopus, ISI, IF 2012 9.737)
12. Kupriyanova E.V., Sinetova M.A., Cho S.M., Park Y.-I., Los D.A., Pronina N.A. (2013) CO2-concentrating mechanism in cyanobacterial photosynthesis: organization, physiological role and evolutionary origin. Photosynth. Res. 117 (1-3): 133-146
13. Sinetova M.A., Červený J., Zavřel T., Nedbal L. (2012) On the dynamics and constraints of batch culture growth of the cyanobacterium Cyanothece sp. ATCC 51142. J. Biotechnol. 162(1): 148-155
14. Sinetova M.A., Kupriyanova E.V., Markelova A.G., Allakhverdiev S.I., Pronina N.A. (2012) Identification and functional role of the carbonic anhydrase Cah3 in thylakoid membranes of pyrenoid of Chlamydomonas reinhardtii. Biochim. Biophys. Acta (Bioenergetics) 1817: 1248–1255
15. Prakash J.S.S, Sinetova M., Kupriyanova E., Zorina A., Suzuki I., Murata N., Los D.A. (2009) DNA supercoiling regulates the stress-inducible expression of genes in the cyanobacterium. Molecular BioSystems 5: 1904-1912.
已发表 protocol 3篇
Determination of Storage (Starch/Glycogen) and Total Saccharides Content in Algae and Cyanobacteria by a Phenol-Sulfuric Acid Method
苯酚-硫酸法测定藻类和蓝藻中淀粉/糖原的储存和总糖含量

作者:Tomáš Zavřel, Petra Očenášová, Maria A. Sinetova and Jan Červený日期:08/05/2018,浏览量:2517,Q&A: 0
This is a protocol for quantitative determination of storage and total carbohydrates in algae and cyanobacteria. The protocol is simple, fast and sensitive and it requires only few standard chemicals. Great advantage of this protocol is that both ...
Measurement of Chlorophyll a and Carotenoids Concentration in Cyanobacteria
蓝藻细菌中叶绿素a和类胡萝卜素浓度的测量

作者:Tomáš Zavřel, Maria A. Sinetova and Jan Červený日期:05/05/2015,浏览量:19395,Q&A: 1
This is a protocol for precise measurement of chlorophyll a and total carotenoid concentrations in cyanobacteria cells. Cellular chlorophyll concentration is one of the central physiological parameters, routinely followed in many research ...
参审 protocol 5篇
Quantification of Chlorophyll as a Proxy for Biofilm Formation in the Cyanobacterium Synechococcus elongatus
定量测定蓝藻细长聚球藻中作为生物膜形成代用指标的叶绿素
作者:Eleonora Sendersky, Ryan Simkovsky, Susan S. Golden and Rakefet Schwarz日期:07/20/2017,浏览量:4660,Q&A: 0
A self-suppression mechanism of biofilm development in the cyanobacterium Synechococcus elongatus PCC 7942 was recently reported. These studies required quantification of biofilms formed by mutants impaired in the biofilm-inhibitory ...
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Transformation of Thermus Species by Natural Competence
通过自然竞争法转化栖热菌属细胞
作者:Alba Blesa and José Berenguer日期:11/20/2016,浏览量:5026,Q&A: 0
Many Thermus species harbour genomes scourged with horizontally transferred signatures. Thermus thermophilus (Tth) has been characterized as naturally competent. The transformation protocol described here is based on the ...
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主审 protocol 39篇
Fatty Acid Content and Composition of Triacylglycerols of Chlorella kessleri
凯氏小球藻中脂肪酸含量及三酰甘油组成
作者:Motohide Aoki and Norihiro Sato日期:01/05/2018,浏览量:3074,Q&A: 0
Triacylglycerols (TAGs) are esters formed from one glycerol and three fatty acids. TAGs are induced to accumulate in algal cells under environmental stress conditions including nutrient-limitation, hyperosmosis, and low temperature, for the storage ...
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Determination of Mn Concentrations in Synechocystis sp. PCC6803 Using ICP-MS
采用ICP-MS测定集胞藻PCC6803中Mn的浓度
作者:Fabian Brandenburg, Hanan Schoffman, Nir Keren and Marion Eisenhut日期:12/05/2017,浏览量:3199,Q&A: 0
Manganese (Mn) is an essential micronutrient for all photoautotrophic organisms. Two distinct pools of Mn have been identified in the cyanobacterium Synechocystis sp. PCC 6803 (Synechocystis), with 80% of the Mn residing in the ...
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