|
Microsoft Word 63770195-file00
29
Dixit R, Cyr R (2004) Encounters between dynamic cortical microtubules promote ordering of
735
the cortical array through angle-dependent modifications of microtubule behavior. Plant Cell 16:
736
3274-3284
737
Dogterom M, Surrey T (2013) Microtubule organization in vitro. Curr Opin Cell Biol 25: 23-29
738
Ehrhardt DW (2008) Straighten up and fly right: microtubule dynamics and organization of
739
non-centrosomal arrays in higher plants. Curr Opin Cell Biol 20: 107-116
740
Fiolka R, Shao L, Rego EH, Davidson MW, Gustafsson MG (2012) Time-lapse two-color 3D
741
imaging of live cells with doubled resolution using structured illumination. Proc Natl Acad Sci
742
USA 109: 5311-5315
743
Fishel EA, Dixit R (2013) Role of nucleation in cortical microtubule array organization:
744
variations on a theme. Plant J 75: 270-277.
745
Fitzgibbon J, Beck M, Zhou J, Faulkner C, Robatzek S, Oparka K (2013) A developmental
746
framework for complex plasmodesmata formation revealed by large-scale imaging of the
747
Arabidopsis leaf epidermis. Plant Cell 25: 57-70
748
Fitzgibbon J, Bell K, King E, Oparka K (2010) Super-resolution imaging of plasmodesmata
749
using three-dimensional structured illumination microscopy. Plant Physiol 153: 1453-1463
750
Gardner MK, Zanic M, Howard J (2013) Microtubule catastrophe and rescue. Curr Opin Cell
751
Biol 25: 14-22
752
Gustafsson MG (2000) Surpassing the lateral resolution limit by a factor of two using structured
753
illumination microscopy. J Microsc 198: 82-87
754
Hell SW (2007) Far-field optical nanoscopy. Science 316: 1153-1158
755
Hensel M, Klingauf J, Piehler J (2013) Imaging the invisible: resolving cellular
756
microcompartments by superresolution microscopy techniques. Biol Chem 394: 1097-1113
757
Kamiyama D, Huang B (2012) Development in the STORM Dev Cell 23: 1103-1110
758
www.plantphysiol.org
on July 21, 2018 - Published by
Downloaded from
Copyright © 2014 American Society of Plant Biologists. All rights reserved.
30
Kang BH (2010) Electron microscopy and high-pressure freezing of Arabidopsis. Methods Cell
759
Biol 96: 259-283
760
Kirik A, Ehrhardt DW, Kirik V (2012) TONNEAU2/FASS regulates the geometry of
761
microtubule nucleation and cortical array organization in interphase Arabidopsis cells. Plant Cell
762
24: 1158-1170
763
Kleine-Vehn J, Wabnik K, Martinière A, Łangowski Ł, Willig K, Naramoto S, Leitner J,
764
Tanaka H, Jakobs S, Robert S, Luschnig C, Govaerts W, Hell SW, Runions J, Friml J
765
(2011) Recycling, clustering, and endocytosis jointly maintain PIN auxin carrier polarity at the
766
plasma membrane. Mol Syst Biol 7: 540 doi: 10.1038/msb.2011.72
767
Kner P, Chhun BB, Griffis ER, Winoto L, Gustafsson MG (2009) Super-resolution video
768
microscopy of live cells by structured illumination. Nat Methods 6: 339-342
769
Kutschera U (2008) The growing outer epidermal wall: design and physiological role of a
770
composite structure. Ann Bot 101: 615-621
771
Leung BO, Chou KC (2011) Review of super-resolution fluorescence microscopy for biology.
772
Appl Spectrosc 65: 967-980.
773
Li W, Moriwaki T, Tani T, Watanabe T, Kaibuchi K, Goshima G (2012) Reconstitution of
774
dynamic microtubules with Drosophila XMAP215, EB1, and Sentin. J Cell Biol 199: 849-862
775
Liesche J, Ziomkiewicz I, Schulz A (2013) Super-resolution imaging with Pontamine Fast
776
Scarlet 4BS enables direct visualization of cellulose orientation and cell connection architecture
777
in onion epidermis cells. BMC Plant Biol 13: 226 doi:10.1186/1471-2229-13-226
778
Linnik O, Liesche J, Tilsner J, Oparka KJ (2013) Unraveling the structure of viral replication
779
complexes at super-resolution. Front Plant Sci 4: 6 doi: 10.3389/fpls.2013.00006
780
Lucas JR, Shaw SL (2012) MAP65-1 and MAP65-2 promote cell proliferation and axial growth
781
in Arabidopsis roots. Plant J 71: 454-463
782
www.plantphysiol.org
on July 21, 2018 - Published by
Downloaded from
Copyright © 2014 American Society of Plant Biologists. All rights reserved.
31
Marc J, Granger CL, Brincat J, Fisher DD, Kao Th, McCubbin AG, Cyr RJ (1998) A GFP-
783
MAP4 reporter gene for visualizing cortical microtubule rearrangements in living epidermal
784
cells. Plant Cell 10: 1927-1940.
785
Martin-Fernandez ML, Tynan CJ, Webb SE (2013) A 'pocket guide' to total internal
786
reflection fluorescence. J Microsc 252: 16-22
787
Mattheyses AL, Simon SM, Rappoport JZ (2010) Imaging with total internal reflection
788
fluorescence microscopy for the cell biologist. J Cell Sci 123: 3621-3628.
789
Moore RC, Zhang M, Cassimeris L, Cyr RJ (1997) In vitro assembled plant microtubules
790
exhibit a high state of dynamic instability. Cell Motil Cytoskeleton 38: 278-286
791
Müller S, Wright AJ, Smith LG (2009) Division plane control in plants: new players in the
792
band. Trends Cell Biol 19: 180-188
793
Murata T, Sonobe S, Baskin TI, Hyodo S, Hasezawa S, Nagata T, Horio T, Hasebe M
794
(2005) Microtubule-dependent microtubule nucleation based on recruitment of gamma-tubulin in
795
higher plants. Nat Cell Biol 7: 961-968.
796
Nakamura M, Ehrhardt DW, Hashimoto T (2010) Microtubule and katanin-dependent
797
dynamics of microtubule nucleation complexes in the acentrosomal Arabidopsis cortical array.
798
Nat Cell Biol 12: 1064-1070
799
Nakamura M, Hashimoto T (2009) A mutation in the Arabidopsis gamma-tubulin-containing
800
complex causes helical growth and abnormal microtubule branching. J Cell Sci 122: 2208-2217
801
Portran D, Zoccoler M, Gaillard J, Stoppin-Mellet V, Neumann E, Arnal I, Martiel JL,
802
Vantard M (2013) MAP65/Ase1 promote microtubule flexibility. Mol Biol Cell 24: 1964-1973
803
Rego EH, Shao L, Macklin JJ, Winoto L, Johansson GA, Kamps-Hughes N, Davidson
804
MW, Gustafsson MG (2012) Nonlinear structured-illumination microscopy with a
805
photoswitchable protein reveals cellular structures at 50-nm resolution. Proc Natl Acad Sci USA
806
109: E135-E143.
807
www.plantphysiol.org
on July 21, 2018 - Published by
Downloaded from
Copyright © 2014 American Society of Plant Biologists. All rights reserved.
Dostları ilə paylaş: |
|
|