10.1371/journal.pone.0181753.g004
Anna A. Hippmann
Anna
A. Hippmann
Nina Schuback
Nina
Schuback
Kyung-Mee Moon
Kyung-Mee
Moon
John P. McCrow
John
P. McCrow
Andrew E. Allen
Andrew
E. Allen
Leonard J. Foster
Leonard J.
Foster
Beverley R. Green
Beverley
R. Green
Maria T. Maldonado
Maria
T. Maldonado
Contrasting effects of copper limitation on the photosynthetic apparatus in two strains of the open ocean diatom <i>Thalassiosira oceanica</i> - Fig 4
Public Library of Science
2017
LHC
NPQ
carbon fixation
PSI
PSII
reactive oxygen species
photosynthetic electron transport chain
ETC
cytochrome b 6 f
CCMP 1005 decreases
ocean diatom Thalassiosira oceanica
Fe
Cu-containing photosynthetic electron carrier plastocyanin
intra-specific strain differences
photosynthetic apparatus
48 light harvesting
protein
growth rate
cyt b 6 f
II
response
diatom Thalassiosira oceanica
oxygen evolution
2017-08-24 17:57:10
Figure
https://plos.figshare.com/articles/figure/Contrasting_effects_of_copper_limitation_on_the_photosynthetic_apparatus_in_two_strains_of_the_open_ocean_diatom_i_Thalassiosira_oceanica_i_-_Fig_4/5343433
<p><b>A, Representative sequence alignment of predicted LHCs from <i>Thalassiosira oceanica</i> (THAOC, CCMP 1005) and <i>T</i>. <i>pseudonana</i> (Tp, CCMP 1335)</b>: boxes indicate conserved residues; dotted lines show linkage between helix I and III; bold residues are predicted binding sites for Chl molecules. <b>B, Cartoon of the predicted general LHC structure (grey) comprised of three membrane spanning helices within the thylakoid membrane (orange) and the lumenal N-terminus and stromal C-terminus [</b><a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0181753#pone.0181753.ref080" target="_blank">80</a><b>]</b>.</p>