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Volume 1, Issue 1, Pages (January 2008)

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1 Volume 1, Issue 1, Pages 155-166 (January 2008)
A Novel Two Domain-Fusion Protein in Cyanobacteria with Similarity to the CAB/ELIP/HLIP Superfamily: Evolutionary Implications and Regulation  Kilian Oliver , Steunou Anne Soisig , Grossman Arthur R. , Bhaya Devaki   Molecular Plant  Volume 1, Issue 1, Pages (January 2008) DOI: /mp/ssm019 Copyright © 2008 The Authors. All rights reserved. Terms and Conditions

2 Figure 1 Tandem Arrangement of hli4 and hli5 on the Genomes of Synechococcus OS-B’ and Synechococcus OS-A. Genes are shown as open arrows with gene designations within brackets. The encoded proteins are shown as filled bars below the genes. The relative positions of the transmembrane helices in Hlip4 (TMH) (purple box) and Hlip5 (TMH1 and TMH2) (red and purple boxes, respectively) are shown. The position of primers used to amplify the genes in Synechococcus OS-B’ by PCR is shown in line 1 as filled back arrows. Nt, nucleotides. Molecular Plant 2008 1, DOI: ( /mp/ssm019) Copyright © 2008 The Authors. All rights reserved. Terms and Conditions

3 Figure 2 ClustalW alignment of HLIPs.
(A) ClustalW alignment of HLIPs from Synechococcus OS-B′ and OS-A and Synechococcus PCC6803 are shown. Gene abbreviations used are: hli1 OS-A to hli5 OS-A for Hlip1 to 5 of Synechococcus OS-A; hli1 OS-B’ to hli5 OS- B’ for Hlip1 to 5 of Synechococcus OS-B’; hliA, hliB, hliC and hliD for the Hli proteins of Synechocystis PCC6803. (B) ClustalW alignment of HLIPs fromSynechococcus OS-B′ and OS-A with Coh1 found in other cyanobacteria. See Table 1 and text for Genbank Accession numbers. CY0110_10942 (Cyanothece sp. CCY0110) has not been included in this analysis. Black, dark gray and light gray boxes indicate completely conserved (100%), highly conserved (>80%) or moderately conserved (>60%) residues, respectively. The position of TMH1 (of Hlip5) is shown as a red bar and TMH (of Hlip1–4)/TMH2 (of Hlip5) are shown as a purple bar. The position of the conserved E and R residues in TMH1 and TMH2 of Hlip5 are boxed in red and blue, respectively, in the alignments. They are also marked by stars in the TMH bars below the alignments. The glutamate(E)/aspartate (D) residues in the loop between TMH1 and TMH2 of Hlip5 are boxed in green (residues #53, 55, 59, and 61 in lines 9 and 10 of Figure 2A. Molecular Plant 2008 1, DOI: ( /mp/ssm019) Copyright © 2008 The Authors. All rights reserved. Terms and Conditions

4 Figure 3 Alignment of TMH1 of Synechococcus OS-A and OS-BHlip5 with Selected TMH Domains. TMH1 of Hlip5 of Synechococcus OS-A and OS-B’ aligned manually with selected Helix C (TMH2) domains of Fragaria ananassa (gi: ), Pisum sativum (gi:115788), Arabidopsis thaliana (gi: ), Isochrysis galbana (gi: ), and Dunaliella salina (gi: ). Based on the crystal structure of LHCII (Lhcb1) from Pisum sativum the location of TMH2 (Helix C) is indicated by a dotted bar underneath the alignment; conserved residues that are part of chl a/b binding fold of pfam PF00504 and are relatively well conserved in all TMHs are shown by small filled black circles; star symbols mark residues involved in chlorophyll binding. Molecular Plant 2008 1, DOI: ( /mp/ssm019) Copyright © 2008 The Authors. All rights reserved. Terms and Conditions

5 Figure 4 Transcript levels of hli genes (hli1–hli5).
(A) hli transcript levels after transfer to high light. Cells were kept in the dark for 16 h and then transferred to high light (200 μmol photons m−2 s−1) and aliquots were taken after 5, 10, 15, and 60 min for RNA extraction. Gene-specific primers were used for qPCR analysis (see ‘Material and Methods’ for details). Absolute RNA levels were calculated based on a standard series using defined amounts of the respective PCR product for calibration; the highest RNA level which was measured (i.e. hli3 at 10 min, based on the qPCR product quantification) was set at 100%. (B) hli transcript levels after transfer to dark. Cells grown in high light (200 μmol photons m−2 s−1) to mid-logarithmic phase were transferred to darkness and aliquots were taken for RNA extraction at 0, 5, 10, and 60 min after transfer. The relative RNA levels for each of the hli genes was calculated by setting the RNA level at the 0 time point (i.e. immediately before the light shift) arbitrarily to 100% for all transcripts. Molecular Plant 2008 1, DOI: ( /mp/ssm019) Copyright © 2008 The Authors. All rights reserved. Terms and Conditions

6 Figure 5 Steady-State Levels of the hli Transcripts (hli1–hli5). Steady-state levels of the hli transcripts (hli1–hli5) were measured in cultures kept in the dark for 16 h or grown to mid-logarithmic phase at different light intensities. RNA values are relative to the respective levels of individual hli genes in the dark-acclimated cells, set arbitrarily to 1. Specific primers, as described in Table 1 were used for each hli gene. Molecular Plant 2008 1, DOI: ( /mp/ssm019) Copyright © 2008 The Authors. All rights reserved. Terms and Conditions

7 Figure 6 Transcript levels of hli4 and hli5.
(A) Transcript levels measured using RT-PCR. RT-PCR measurement of transcript levels of hli4 and hli5 from Synechococcus OS-B’ cells grown in the dark (D) or transferred to light (L) (200 μmol photons m−2 s−1) for 15 min. In all cases, the reverse primer for hli5 (16R, Table 1) was used for the RT reaction. Lanes 1–5, PCR with hli4-specific primers (expected size 0.15 kb). Lanes 6–10, PCR with hli5-specific primers (expected size 0.195 kb). Lanes 11–15, PCR with the forward primer for hli4 (60F) and the reverse primer for hli5 (16R) (expected size 0.6 kb). For each set of primers, genomic DNA (G) extracted from Synechococcus OS-B’ was used as a positive control. Negative control (–) (i.e. no reverse transcriptase added) for RNA extracted from the light (L) and the dark (D) samples (Lanes 1, 2, 6, 7, 11, and 12). Leftmost lane: molecular markers. (B) Top: Transcript levels measured using Northern hybridization. RNA was extracted from cells kept in the dark for 16 h (lane 5) and then transferred to high light (200 μmol photons m−2 s−1) for 5 min (lane 1), 10 min (lane 2), 15 min (lane 3), or 60 min (lane 4). Bottom: RNA gel (showing the major rRNA bands) which was used for blotting, showing that all lanes were equally loaded. Molecular Plant 2008 1, DOI: ( /mp/ssm019) Copyright © 2008 The Authors. All rights reserved. Terms and Conditions

8 Figure 7 Cartoon of One Possible Configuration of Hlip4 and Hlip5 in the Membrane. Possible dimerization by R–E salt bridges are indicated in the TMH of Hlip4 (light blue) and TMH2 (purple) of Hlip5. The conserved R and E residues in TMH1 (red) of Hlip5 are also shown. The position of the glutamate (E)/aspartate (D) residues (boxed green) is shown in the lumen as predicted by membrane topology. Molecular Plant 2008 1, DOI: ( /mp/ssm019) Copyright © 2008 The Authors. All rights reserved. Terms and Conditions

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