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Books on the topic 'Plant cell cycle'

Author: Grafiati
Published: 4 June 2021
Last updated: 31 January 2023

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1

D, Inzé, ed. The plant cell cycle. Dordrecht: Kluwer Academic Publishers, 2000.

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2

Inzé, Dirk, ed. The Plant Cell Cycle. Dordrecht: Springer Netherlands, 2000. http://dx.doi.org/10.1007/978-94-010-0936-2.

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3

A, Bryant J., Francis D, Society for Experimental Biology (Great Britain), and Symposium on the Cell Division Cycle in Plants (1984 : Cardiff, Wales), eds. The Cell division cycle in plants. Cambridge [Cambridgeshire]: Cambridge University Press, 1985.

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4

Inz, Dirk, ed. Cell Cycle Control and Plant Development. Oxford, UK: Blackwell Publishing Ltd, 2007. http://dx.doi.org/10.1002/9780470988923.

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5

Ormrod, J. C., and D. Francis, eds. Molecular and Cell Biology of the Plant Cell Cycle. Dordrecht: Springer Netherlands, 1993. http://dx.doi.org/10.1007/978-94-011-1789-0.

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6

D, Inzé, ed. The cell cycle control and plant development. Oxford, UK: Blackwell Pub., 2007.

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7

M. C. M. de Gunst. A random model for plant cell population growth. [Amsterdam, the Netherlands]: Centrum voor Wiskunde en Informatica, 1989.

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8

A, Bryant J., and Chiatante Donato, eds. Plant cell proliferation and its regulation in growth and development. Chichester: Wiley, 1998.

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9

Kouwets, Frans. The cell cycle in multinucleate coccoid green algae: Ultrastructure & systematics. Leiden: Rijksherbarium/Hortus Botanicus, 1994.

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10

1960-, Ormrod J. C., and Francis D, eds. Molecular and cell biology of the plant cell cycle: Proceedings of a meeting held at Lancaster University, 9-10 April 1992. Dordrecht: Kluwer Academic, 1993.

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11

Hamilton, John Michael Uwe. Search for a plant homologue of the Saccharomyces cerevisiae cell cycle control gene CDC7. Manchester: University of Manchester, 1994.

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12

British Society for Cell Biology - Company of Biologists Symposium (1985 Glasgow). Growth factors: Structure and function : proceedings of the British Society for Cell Biology - the Company of Biologists Limited Symposium Glasgow, April 1985. Cambridge: Company of Biologists, 1985.

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13

Whitfield, James F. Calcium: Cell cycle driver, differentiator, and killer. New York: Chapman and Hall, 1997.

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14

Whitfield, James F. Calcium: The grand-master cell signaler. Ottawa: NRC Research Press, 2001.

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15

Lakatos, Daniel A. Advanced power systems using bituminous coal. Hauppauge, N.Y: Nova Science Publishers, 2011.

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16

Inzé, Dirk. Plant Cell Cycle. Springer London, Limited, 2011.

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17

Inzé, Dirk. The Plant Cell Cycle. Springer, 2000.

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18

Inzé, Dirk. The Plant Cell Cycle. Springer, 2012.

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19

Cell Division Cycle in Plants: Volume 26, the Cell Division Cycle in Plants. Cambridge University Press, 2008.

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20

The Celldivision cycle in plants. Cambridge: Cambridge University Press, 1985.

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21

Inzé, Dirk. Cell Cycle Control and Plant Development. Wiley & Sons, Limited, John, 2007.

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22

Inzé, Dirk. Cell Cycle Control and Plant Development. Blackwell Publishing Limited, 2007.

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23

Molecular and Cell Biology of the Plant Cell Cycle. Springer, 2012.

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24

D, Francis, Dudits Dénes, and Inzé D, eds. Plant cell division. London: Portland, 1998.

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25

D, Francis, ed. The plant cell cycle and its interfaces. Sheffield: Sheffield Academic Press, 2001.

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26

Inzé, Dirk. Annual Plant Reviews, Cell Cycle Control and Plant Development. Wiley & Sons, Incorporated, John, 2008.

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27

Francis, Dennis. The Plant Cell Cycle and Its Interfaces (0504). 3rd ed. Blackwell, 2001.

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28

(Editor), T. Nagata, S. Hasezawa (Editor), and D. Inzé (Editor), eds. Tobacco BY-2 Cells (Biotechnology in Agriculture and Forestry). Springer, 2004.

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29

(Editor), T. Nagata, K. Matsuoka (Editor), and D. Inzé (Editor), eds. Tobacco BY-2 Cells: From Cellular Dynamics to Omics (Biotechnology in Agriculture and Forestry). Springer, 2006.

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30

Francis, D., and J. C. Ormrod. Molecular and Cell Biology of the Plant Cell Cycle: Proceedings of a meeting held at Lancaster University, 9-10th April, 1992. Springer, 2011.

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31

Ormrod, J. C., and D. Francis. Molecular and Cell Biology of the Plant Cell Cycle: Proceedings of a Meeting Held at Lancaster University, 9-10th April 1992. Springer, 2012.

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32

A, Martins-Loução M., and Lips S. H, eds. Nitrogen in a sustainable ecosystem: From the cell to the plant. Leiden: Backhuys Publishers, 2000.

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33

R, Hopkins Colin, Hughes R. Colin, British Society for Cell Biology., and Company of Biologists, eds. Growth factors, structure and function: Proceedings of the British Society for Cell Biology-The Company of Biologists Limited symposium, Glasgow, April 1985. Cambridge: Company of Biologists, 1985.

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34

Taiz, Lincoln, and Lee Taiz. Sex and the Single Cryptogam. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780190490263.003.0017.

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As Chapter 17 makes clear, the asexualist/sexualists controversy continued even as Johann Hedwig and Karl von Nägel demonstrated the existence of sex in cryptogams by discovering the Alternation of Generations (1782, 1784), hybridizers A. F. Wiegman and Carl Friedrich von Gaertner recieved prestigious prizes for their work, and Giovanni Battista Amici and Adolphe-Theodore Brongniart discovered—and confirmed—the pollen tube. Unconvinced, Matthias Jacob Schleiden, co-founder of the cell theory, insisted that ferns grow asexually from spores, and that spores, not seeds, are the primary units of propagation in seed plants also. He argued (1853) that the entire life-cycle of seed plants is based on duplicative cell divisions that produce seeds entirely by vegetative processes. Following the Aristotelian doctrine that the female parent provides the material substance of the embryo, he concluded pollen must be a female structure that reproduces vegetatively—thus making the case for a unisexual, plants-as-female model.
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35

Whitfield, James F. Calcium: Cell Cycle Driver, Differentiator, Killer (Molecular Biology Intelligence Unit). Chapman & Hall, 1997.

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36

Whitfield, James F. Calcium: Cell Cycle Driver, Differentiator and Killer (Molecular Biology Intelligence Unit). Landes Bioscience, 1997.

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37

Salinas-Rodríguez, Sergio G., Juan Arévalo, Juan Manuel Ortiz, Eduard Borràs-Camps, Victor Monsalvo-Garcia, Maria D. Kennedy, and Abraham Esteve-Núñez, eds. Microbial Desalination Cells for Low Energy Drinking Water. IWA Publishing, 2021. http://dx.doi.org/10.2166/9781789062120.

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The world's largest demonstrator of a revolutionary energy system in desalination for drinking water production is in operation. MIDES uses Microbial Desalination Cells (MDC) in a pre-treatment step for reverse osmosis (RO), for simultaneous saline stream desalination and wastewater treatment. MDCs are based on bio-electro-chemical technology, in which biological wastewater treatment can be coupled to the desalination of a saline stream using ion exchange membranes without external energy input. MDCs simultaneously treat wastewater and perform desalination using the energy contained in the wastewater. In fact, an MDC can produce around 1.8 kWh of bioelectricity from the energy contained in 1 m3 of wastewater. Compared to traditional RO, more than 3 kWh/m3 of electrical energy is saved. With this novel technology, two low-quality water streams (saline stream, wastewater) are transformed into two high-quality streams (desalinated water, treated wastewater) suitable for further uses. An exhaustive scaling-up process was carried out in which all MIDES partners worked together on nanostructured electrodes, antifouling membranes, electrochemical reactor design and optimization, life cycle assessment, microbial electrochemistry and physiology expertise, and process engineering and control. The roadmap of the lab-MDC upscaling goes through the assembly of a pre-pilot MDC, towards the development of the demonstrator of the MDC technology (patented). Nominal desalination rate between 4-11 Lm-2h-1 is reached with a current efficiency of 40 %. After the scalability success, two MDC pilot plants were designed and constructed consisting of one stack of 15 MDC pilot units with a 0.4 m2 electrode area per unit. This book presents the information generated throughout the EU funded MIDES project and includes the latest developments related to desalination of sea water and brackish water by applying microbial desalination cells. ISBN: 9781789062113 (Paperback) ISBN: 9781789062120 (eBook)
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38

Handbook of protoctista: The structure, cultivation, habitats, and life cycles of the eukaryotic microorganisms and their descendants exclusive of animals, plants, and fungi : a guide to the algae, ciliates, foraminifera, sporozoa, water molds, slime molds, and the other protoctists. Boston, MA: Jones and Bartlett Publishers, 1989.

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