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LEADER 00000cam  2200709Ii 4500 
001    262690843 
003    OCoLC 
005    20181116042742.7 
006    m     o  d         
007    cr cn||||||||| 
008    081017s2006    txua    ob    001 0 eng d 
019    153580227|a176910842|a218739416|a229457117|a316685440
020    9780387469577 
020    0387469575 
020    0387360581|q(alk. paper) 
020    9780387360584 
035    (OCoLC)262690843|z(OCoLC)153580227|z(OCoLC)176910842
037    978-0-387-36058-4|bSpringer|n 
040    GW5XE|beng|epn|erda|cGW5XE|dOCLCQ|dEBLCP|dOCLCQ|dYNG|dWTU
049    MAIN 
050  4 QH603.C4|bC45 2006eb 
060  4 QU 350|bC393 2006 
060  4 2006 N-206 
070    QH603.C4|bC45 2006 
072  7 SCI|x017000|2bisacsh 
082 04 571.6|222 
245 00 Cell-cell channels /|c[edited by] Frantisek Baluska, 
       Dieter Volkmann, Peter W. Barlow. 
264  1 Georgetown, Tex. :|bLandes Bioscience / ;|aNew
       York :|bSpringer Science+business Media,|c2006. 
300    1 online resource (321 pages) :|billustrations (some 
336    text|btxt|2rdacontent 
337    computer|bc|2rdamedia 
338    online resource|bcr|2rdacarrier 
340    |gpolychrome|2rdacc|0
347    text file|2rdaft|0
490 1  Molecular biology intelligence unit 
504    Includes bibliographical references and index. 
505 0  Cell-cell channels and their implications for cell theory 
       / Frantisek Baluska, Dieter Volkmann, and Peter W. Barlow 
       -- Mating cell-cell channels in conjugating bacteria / 
       Elisabeth Grohmann -- The tetrahymena conjugation junction
       / Eric S. Cole -- Cytoplasmic bridges in volvox and its 
       relatives / Harold J. Hoops, Ichiro Nishii, and David L. 
       Kirk -- Vegetative hyphal fusion in filamentous fungi / 
       Nick D. Read and M. Gabriela Roca -- Plasmodesmata: cell-
       cell channels in plants / Yoselin Benitez Alfonso, 
       Laurence Cantrill, and David Jackson -- Sieve-pore 
       plugging mechanisms / Aart J.E. van Bel -- Actin and 
       myosin VIII in plant cell-cell channels / Jozef Samaj [and
       others] -- Cell-cell communication in wood / John R. 
       Barnett -- TMV movement protein targets cell-cell channels
       in plants and prokaryotes: possible roles of tubulin- and 
       FtsZ-based cytoskeletons / Manfred Heinlein -- Viral 
       movement proteins induce tubule formation in plant and 
       insect cells / Jan W.M. van Lent and Corinne Schmitt-
505 0  Cell-cell movements of transcription factors in plants / 
       Alexis Maizel -- Gap junctions: cell-cell channels in 
       animals / Fabio Mammano -- Tunneling nanotubes: membranous
       channels between animal cells / Hans-Hermann Gerdes and 
       Amin Rustom -- Cytoplasmic bridges as cell-cell channels 
       of germ cells / Sami Ventela -- Fusome as a cell-cell 
       communication channel of drosophila ovarian cyst / Jean-
       Rene Huynh -- Cytonemes as cell-cell channels in human 
       blood cells / Svetlana Ivanovna Galkina . [and others] -- 
       Paracellular pores in endothelial barriers / Luca Manzi 
       and Gianfranco Bazzoni -- Channels across endothelial 
       cells / Radu V. Stan -- Molecular transfers through 
       transient lymphoid cell-cell channels / Mary Poupot, Julie
       Gertner, and Jean-Jacques Fournie -- Cell-cell transport 
       of homeoproteins: with or without channels / Alain Joliot 
       and Alain Prochiantz -- Virological synapse for cell-cell 
       spread of viruses / Eduardo Garcia and Vincent Piguet -- 
       Cell-cell fusion: transient channels leading to plasma 
       membrane merger / William A. Mohler. 
520    He biological sciences are dominated by the idea that 
       cells are the functionally autonomous, physically 
       separated, discrete units of life. TThis concept was 
       propounded in the 19th century by discoveries of the 
       cellular structuring of both plants and animals. Moreover,
       the ap parent autonomy of unicellular eukaryotes, as well 
       as the cellular basis of the mammalian brain (an organ 
       whose anatomy for a long while defied attempts to validate
       the idea of the cellular nature of its neurons), seemed to
       provide the final conclusive evidence for the completeness
       of *cell theory', a theory which has persisted in an 
       almost dogmatic form up to the present day. However, it is
       very obvious that there are numerous observations which 
       indicate that it is not the cells which serve as the basic
       units of biological life but that this property falls to 
       some other, subcellular assemblage. To deal with this 
       intricate problem concerning the fundamental unit of 
       living matter, we proposed the so-called Cell Body concept
       which, in fact, devel ops an exceedingly original idea 
       proposed by Julius Sachs at the end of the 19th century. 
       In the case of eukaryotic cells, DNA-enriched nuclei are 
       intimately associated with a microtubular cytoskeleton. In
       this configuration--as a Cell Body--these two items 
       comprise the fundamental functional and struc tural unit 
       of eukaryotic living matter. The Cell Body seems to be 
       inherent to all cells in all organisms. 
588 0  Print version record. 
650  0 Cell junctions.|0
650  0 Cell interaction.|0
650  0 Cells|xPermeability.|0
650  0 Cell membranes.|0
650  2 Intercellular Junctions.|0
650 12 Cell Communication.|0 
650 12 Intercellular Junctions.|0
650 12 Cell Membrane.|0 
655  4 Electronic books. 
700 1  Baluška, F.|0
700 1  Volkmann, Dieter.|0
700 1  Barlow, Peter W.|0
773 0  |tSpringer e-books 
776 08 |iPrint version:|tCell-cell channels.|dGeorgetown, Tex. : 
       Landes Bioscience / ; New York : Springer 
       Science+business Media, 2006|z0387360581|z9780387360584
       |w(DLC)  2006018962|w(OCoLC)70119692 
830  0 Molecular biology intelligence unit (Unnumbered)|0http:// 
990    SpringerLink|bSpringer English/International eBooks 2006 -
       Full Set|c2018-11-16|yMaster record variable field(s) 
       change: 650|5OH1 
990    SpringerLink|bSpringer English/International eBooks 2006 -
       Full Set|c2018-11-02|yMaster record variable field(s) 
       change: 650|5OH1 
990    SpringerLink|bSpringer English/International eBooks 2006 -
       Full Set|c2018-10-31|yNew collection 
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