Biology Reference
In-Depth Information
Acknowledgement
This research was supported by Grants-in-Aid for Scientifi c
Research (B) (22380186) and Scientifi c Research on Innovative
Areas (22114507) from the Ministry of Education, Culture,
Sports, Science and Technology, Japan.
References
1. Lopez-Juez E, Pyke KA (2005) Plastids
unleashed: their development and their inte-
gration in plant development. Int J Dev Biol
49:557-577
2. Mizusawa N, Yamamoto N, Miyao M (1999)
Characterization of damage to the D1 protein
of photosystem II under photoinhibitory illu-
mination in non-phosphorylated and phos-
phorylated thylakoid membranes. J Photochem
Photobiol B Biol 48:97-103
3. Perry SE, Li HM, Keegstra K (1991) In vitro
reconstitution of protein transport into chlo-
roplasts. Methods Cell Biol 34:327-344
4. Waegemann K, Soll J (1991) Characterization
of the protein import apparatus in isolated
outer envelope of chloroplast. Plant J
261:89-92
5. Nanjo Y, Oka H, Ikarashi N et al (2006) Rice
plastidial
N
-glycosylated nucleotide pyrophos-
phatase/phosphodiesterase is transported
from the ER-golgi to the chloroplast through
the
stromal ridge subunits interaction. PLoS One
6:e20342.
doi:
10.1371/journal.phone
10. Schulz A, Knoetzel J, Scheller HV, Mant A
(2004) Uptake of a fl uorescent dye as a swift
and simple indicator of organelle intactness:
import-competent chloroplasts from soil-
grown Arabidopsis. J Histochem Cytochem
52:701-704
11. Fukao Y, Ferjani A, Tomioka R et al (2011)
iTRAQ analysis reveals mechanisms of growth
defects due to excess zinc in Arabidopsis. Plant
Physiol 155:1893-1907
12. Sakai T, Hayashi K (1973) Studies on the dis-
tribution of starchy and sugary leaves in mono-
cotyledonous plants. J Plant Res 86:13-25
13. Lilly JW, Havey MJ, Jackson SA, Jiang J
(2001) Cytogenomic analyses reveal the struc-
tural plasticity of the chloroplast genome in
higher plants. Plant Cell 13:245-254
14. Zigler JS Jr, Lepe-Zuniga JL, Vistica B, Gery I
(1985) Analysis of the cytotoxic effects of
light-exposed HEPES-containing culture
medium. In Vitro Cell Dev Biol 21:282-287
15. Kunst L (1998) Preparation of physiologically
active chloroplasts from Arabidopsis. In:
Martinez-Zapater JM, Salinas J (eds) Methods
in molecular biology: Arabidopsis protocols,
vol 82. Humana, Totowa, NJ, pp 43-48
16. Oldenburg DJ, Bendich AJ (2004) Changes in
the structure of DNA molecules and the
amount of DNA per plastid during chloroplast
development in maize. J Mol Biol
344:1311-1330
17. von Zychlinski A, Kleffmann T, Krishnamurthy
N et al (2005) Proteome analysis of the rice
etioplast: metabolic and regulatory networks
and novel protein functions. Mol Cell
Proteomics 4:1072-1084
secretory
pathway.
Plant
Cell
18:2582-2592
6. Blomqvist LA, Ryberg M, Sundqvist C (2008)
Proteomic analysis of highly purifi ed prolamel-
lar bodies reveals their signifi cance in chloro-
plast development. Photosynth Res 96:37-50
7. Miyao M (2009) Isolation of intact chloro-
plasts, thylakoids and photosystem II mem-
branes from higher plants. Low Temp Sci
67:197-203
8. Kley J, Heil M, Muck A, Svatos A, Boland W
(2010) Isolating intact chloroplasts from small
Arabidopsis samples for proteomic studies.
Anal Biochem 398:198-202
9. Shao J, Zhang Y, Yu J, Guo L, Ding Y (2011)
Isolation of thylakoid membrane complexes
from rice by a new double-strips BN/SDS-
PAGE and bioinformatics prediction of
