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@ -78,7 +81,7 @@ Q. Zhang
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et L.R. Song
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<emphasis id="B91D9B7BFFDDEB32EA8ED3D6FD108F09" box="[668,753,246,271]" italics="true" pageId="2" pageNumber="213">sp. nov.</emphasis>
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(
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<figureCitation id="13525BECFFDDEB32EB12D3D6FC888F09" box="[768,873,246,271]" captionStart-0="FIGURE 1" captionStart-1="FIGURE 2" captionStartId-0="2.[136,229,1989,2010]" captionStartId-1="3.[136,229,1957,1978]" captionTargetBox-0="[278,1307,652,1959]" captionTargetBox-1="[189,1397,190,1931]" captionTargetId-0="figure-188@2.[278,1309,652,1961]" captionTargetId-1="figure-14@3.[189,1398,190,1932]" captionTargetPageId-0="2" captionTargetPageId-1="3" captionText-0="FIGURE 1. Light micrographs of Aliterella shaanxiensis.A, B. Compact and irregular thallus composed of numerous colonies or solitary cells with colourless and firm mucilaginous envelopes. C, D. Irregular or rounded colonies. E. Blue-green cells easily removed from colonies with pressure. F, G. Cylindrical cells with rounded ends. Scale bars: A–E, 10 μm; F–G, 5 μm." captionText-1="FIGURE 2. Transmission electron micrographs of Aliterella shaanxiensis. A–B. Section of colonies surround by mucilaginous envelopes. C. Cell section showing unstratified firm mucilaginous envelope and polyphosphate body. D. Section of cell in binary fission. E–F.Section of cylindrical cell, showing cell wall, sheath, DNA fibrils, polyphosphate bodies, parietal thylakoids and phycobilisome. Scale bars:A–B, 1 μm; C–F, 0.5 μm. Abbreviations: CW, cell wall; D, DNA fibrils; PB, polyphosphate body; Py, phycobilisome; S, sheath; TH, thylakoids." pageId="2" pageNumber="213">Figs. 1–2</figureCitation>
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<figureCitation id="13525BECFFDDEB32EB12D3D6FC888F09" box="[768,873,246,271]" captionStart-0="FIGURE 1" captionStart-1="FIGURE 2" captionStartId-0="2.[136,229,1989,2010]" captionStartId-1="3.[136,229,1957,1978]" captionTargetBox-0="[278,1307,652,1959]" captionTargetBox-1="[189,1397,190,1931]" captionTargetId-0="figure-188@2.[278,1309,652,1961]" captionTargetId-1="figure-14@3.[189,1398,190,1932]" captionTargetPageId-0="2" captionTargetPageId-1="3" captionText-0="FIGURE 1. Light micrographs of Aliterella shaanxiensis.A, B. Compact and irregular thallus composed of numerous colonies or solitary cells with colourless and firm mucilaginous envelopes. C, D. Irregular or rounded colonies. E. Blue-green cells easily removed from colonies with pressure. F, G. Cylindrical cells with rounded ends. Scale bars: A–E, 10 μm; F–G, 5 μm." captionText-1="FIGURE 2. Transmission electron micrographs of Aliterella shaanxiensis. A–B. Section of colonies surround by mucilaginous envelopes. C. Cell section showing unstratified firm mucilaginous envelope and polyphosphate body. D. Section of cell in binary fission. E–F.Section of cylindrical cell, showing cell wall, sheath, DNA fibrils, polyphosphate bodies, parietal thylakoids and phycobilisome. Scale bars:A–B, 1 μm; C–F, 0.5 μm. Abbreviations: CW, cell wall; D, DNA fibrils; PB, polyphosphate body; Py, phycobilisome; S, sheath; TH, thylakoids." figureDoi-0="http://doi.org/10.5281/zenodo.13727231" figureDoi-1="http://doi.org/10.5281/zenodo.13727235" httpUri-0="https://zenodo.org/record/13727231/files/figure.png" httpUri-1="https://zenodo.org/record/13727235/files/figure.png" pageId="2" pageNumber="213">Figs. 1–2</figureCitation>
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)
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@ -114,7 +117,7 @@ material was the source of 16S–23S rRNA gene sequence deposited as GenBank acc
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023997.
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||||
<caption id="DF1617E1FFDDEB32E89AD4E5FBBE8624" ID-DOI="http://doi.org/10.5281/zenodo.13727231" ID-Zenodo-Dep="13727231" httpUri="https://zenodo.org/record/13727231/files/figure.png" pageId="2" pageNumber="213" startId="2.[136,229,1989,2010]" targetBox="[278,1307,652,1959]" targetPageId="2" targetType="figure">
|
||||
<paragraph id="8BD64769FFDDEB32E89AD4E5FBBE8624" blockId="2.[136,1452,1989,2082]" pageId="2" pageNumber="213">
|
||||
<emphasis id="B91D9B7BFFDDEB32E89AD4E5FF1C89DC" bold="true" box="[136,253,1989,2010]" pageId="2" pageNumber="213">FIGURE 1.</emphasis>
|
||||
Light micrographs of
|
||||
|
|
@ -125,7 +128,7 @@ Light micrographs of
|
|||
A, B. Compact and irregular thallus composed of numerous colonies or solitary cells with colourless and firm mucilaginous envelopes. C, D. Irregular or rounded colonies. E. Blue-green cells easily removed from colonies with pressure. F, G. Cylindrical cells with rounded ends. Scale bars: A–E, 10 μm; F–G, 5 μm.
|
||||
</paragraph>
|
||||
</caption>
|
||||
<caption id="DF1617E1FFDCEB33E89AD485FA478620" pageId="3" pageNumber="214" startId="3.[136,229,1957,1978]" targetBox="[189,1397,190,1931]" targetPageId="3" targetType="figure">
|
||||
<caption id="DF1617E1FFDCEB33E89AD485FA478620" ID-DOI="http://doi.org/10.5281/zenodo.13727235" ID-Zenodo-Dep="13727235" httpUri="https://zenodo.org/record/13727235/files/figure.png" pageId="3" pageNumber="214" startId="3.[136,229,1957,1978]" targetBox="[189,1397,190,1931]" targetPageId="3" targetType="figure">
|
||||
<paragraph id="8BD64769FFDCEB33E89AD485FA478620" blockId="3.[136,1452,1957,2086]" pageId="3" pageNumber="214">
|
||||
<emphasis id="B91D9B7BFFDCEB33E89AD485FF1C89BC" bold="true" box="[136,253,1957,1978]" pageId="3" pageNumber="214">FIGURE 2.</emphasis>
|
||||
Transmission electron micrographs of
|
||||
|
|
@ -158,36 +161,36 @@ locality
|
|||
<paragraph id="8BD64769FFDBEB34E8AFD3C8FEFF8FFB" blockId="4.[136,1452,160,1589]" pageId="4" pageNumber="215">
|
||||
<emphasis id="B91D9B7BFFDBEB34E8AFD3C8FDD58F07" bold="true" box="[189,564,232,257]" pageId="4" pageNumber="215">Light and electron microscopy:</emphasis>
|
||||
—The thallus was composed of solitary cells or, more commonly, microscopic colonies, forming extended and compact multicolonial groups (
|
||||
<figureCitation id="13525BECFFDBEB34EB51D22CFC208F23" box="[835,961,268,293]" captionStart="FIGURE 1" captionStartId="2.[136,229,1989,2010]" captionTargetBox="[278,1307,652,1959]" captionTargetId="figure-188@2.[278,1309,652,1961]" captionTargetPageId="2" captionText="FIGURE 1. Light micrographs of Aliterella shaanxiensis.A, B. Compact and irregular thallus composed of numerous colonies or solitary cells with colourless and firm mucilaginous envelopes. C, D. Irregular or rounded colonies. E. Blue-green cells easily removed from colonies with pressure. F, G. Cylindrical cells with rounded ends. Scale bars: A–E, 10 μm; F–G, 5 μm." pageId="4" pageNumber="215">Fig. 1 A–B</figureCitation>
|
||||
<figureCitation id="13525BECFFDBEB34EB51D22CFC208F23" box="[835,961,268,293]" captionStart="FIGURE 1" captionStartId="2.[136,229,1989,2010]" captionTargetBox="[278,1307,652,1959]" captionTargetId="figure-188@2.[278,1309,652,1961]" captionTargetPageId="2" captionText="FIGURE 1. Light micrographs of Aliterella shaanxiensis.A, B. Compact and irregular thallus composed of numerous colonies or solitary cells with colourless and firm mucilaginous envelopes. C, D. Irregular or rounded colonies. E. Blue-green cells easily removed from colonies with pressure. F, G. Cylindrical cells with rounded ends. Scale bars: A–E, 10 μm; F–G, 5 μm." figureDoi="http://doi.org/10.5281/zenodo.13727231" httpUri="https://zenodo.org/record/13727231/files/figure.png" pageId="4" pageNumber="215">Fig. 1 A–B</figureCitation>
|
||||
). Colonies were mostly irregular, sometimes rounded, with several cells (up to 32–64 cells or more) (
|
||||
<figureCitation id="13525BECFFDBEB34EB10D210FC678F4F" box="[770,902,304,329]" captionStart="FIGURE 1" captionStartId="2.[136,229,1989,2010]" captionTargetBox="[278,1307,652,1959]" captionTargetId="figure-188@2.[278,1309,652,1961]" captionTargetPageId="2" captionText="FIGURE 1. Light micrographs of Aliterella shaanxiensis.A, B. Compact and irregular thallus composed of numerous colonies or solitary cells with colourless and firm mucilaginous envelopes. C, D. Irregular or rounded colonies. E. Blue-green cells easily removed from colonies with pressure. F, G. Cylindrical cells with rounded ends. Scale bars: A–E, 10 μm; F–G, 5 μm." pageId="4" pageNumber="215">Fig. 1 C–D</figureCitation>
|
||||
<figureCitation id="13525BECFFDBEB34EB10D210FC678F4F" box="[770,902,304,329]" captionStart="FIGURE 1" captionStartId="2.[136,229,1989,2010]" captionTargetBox="[278,1307,652,1959]" captionTargetId="figure-188@2.[278,1309,652,1961]" captionTargetPageId="2" captionText="FIGURE 1. Light micrographs of Aliterella shaanxiensis.A, B. Compact and irregular thallus composed of numerous colonies or solitary cells with colourless and firm mucilaginous envelopes. C, D. Irregular or rounded colonies. E. Blue-green cells easily removed from colonies with pressure. F, G. Cylindrical cells with rounded ends. Scale bars: A–E, 10 μm; F–G, 5 μm." figureDoi="http://doi.org/10.5281/zenodo.13727231" httpUri="https://zenodo.org/record/13727231/files/figure.png" pageId="4" pageNumber="215">Fig. 1 C–D</figureCitation>
|
||||
). Cells were cylindrical with rounded ends when isolate (
|
||||
<figureCitation id="13525BECFFDBEB34E8F2D274FEBC8F6B" box="[224,349,340,365]" captionStart="FIGURE 1" captionStartId="2.[136,229,1989,2010]" captionTargetBox="[278,1307,652,1959]" captionTargetId="figure-188@2.[278,1309,652,1961]" captionTargetPageId="2" captionText="FIGURE 1. Light micrographs of Aliterella shaanxiensis.A, B. Compact and irregular thallus composed of numerous colonies or solitary cells with colourless and firm mucilaginous envelopes. C, D. Irregular or rounded colonies. E. Blue-green cells easily removed from colonies with pressure. F, G. Cylindrical cells with rounded ends. Scale bars: A–E, 10 μm; F–G, 5 μm." pageId="4" pageNumber="215">Fig. 1 F–G</figureCitation>
|
||||
<figureCitation id="13525BECFFDBEB34E8F2D274FEBC8F6B" box="[224,349,340,365]" captionStart="FIGURE 1" captionStartId="2.[136,229,1989,2010]" captionTargetBox="[278,1307,652,1959]" captionTargetId="figure-188@2.[278,1309,652,1961]" captionTargetPageId="2" captionText="FIGURE 1. Light micrographs of Aliterella shaanxiensis.A, B. Compact and irregular thallus composed of numerous colonies or solitary cells with colourless and firm mucilaginous envelopes. C, D. Irregular or rounded colonies. E. Blue-green cells easily removed from colonies with pressure. F, G. Cylindrical cells with rounded ends. Scale bars: A–E, 10 μm; F–G, 5 μm." figureDoi="http://doi.org/10.5281/zenodo.13727231" httpUri="https://zenodo.org/record/13727231/files/figure.png" pageId="4" pageNumber="215">Fig. 1 F–G</figureCitation>
|
||||
), sometimes irregular by mutual extrusion when in dense colonies (
|
||||
<figureCitation id="13525BECFFDBEB34EC5AD274FB2B8F6B" box="[1096,1226,340,365]" captionStart="FIGURE 1" captionStartId="2.[136,229,1989,2010]" captionTargetBox="[278,1307,652,1959]" captionTargetId="figure-188@2.[278,1309,652,1961]" captionTargetPageId="2" captionText="FIGURE 1. Light micrographs of Aliterella shaanxiensis.A, B. Compact and irregular thallus composed of numerous colonies or solitary cells with colourless and firm mucilaginous envelopes. C, D. Irregular or rounded colonies. E. Blue-green cells easily removed from colonies with pressure. F, G. Cylindrical cells with rounded ends. Scale bars: A–E, 10 μm; F–G, 5 μm." pageId="4" pageNumber="215">Fig. 1 C–D</figureCitation>
|
||||
<figureCitation id="13525BECFFDBEB34EC5AD274FB2B8F6B" box="[1096,1226,340,365]" captionStart="FIGURE 1" captionStartId="2.[136,229,1989,2010]" captionTargetBox="[278,1307,652,1959]" captionTargetId="figure-188@2.[278,1309,652,1961]" captionTargetPageId="2" captionText="FIGURE 1. Light micrographs of Aliterella shaanxiensis.A, B. Compact and irregular thallus composed of numerous colonies or solitary cells with colourless and firm mucilaginous envelopes. C, D. Irregular or rounded colonies. E. Blue-green cells easily removed from colonies with pressure. F, G. Cylindrical cells with rounded ends. Scale bars: A–E, 10 μm; F–G, 5 μm." figureDoi="http://doi.org/10.5281/zenodo.13727231" httpUri="https://zenodo.org/record/13727231/files/figure.png" pageId="4" pageNumber="215">Fig. 1 C–D</figureCitation>
|
||||
). Cells were 2.8–3.7 μm long (mean = 3.3 ± 0.3 μm, n = 40), 2.0–2.7 μm in diameter (mean = 2.2 ± 0.2 μm, n = 40), 1.3 to 1.7 × longer than wide (mean, 1.5 ×) (
|
||||
<figureCitation id="13525BECFFDBEB34E9B6D2BCFDC48FB3" box="[420,549,412,437]" captionStart="FIGURE 1" captionStartId="2.[136,229,1989,2010]" captionTargetBox="[278,1307,652,1959]" captionTargetId="figure-188@2.[278,1309,652,1961]" captionTargetPageId="2" captionText="FIGURE 1. Light micrographs of Aliterella shaanxiensis.A, B. Compact and irregular thallus composed of numerous colonies or solitary cells with colourless and firm mucilaginous envelopes. C, D. Irregular or rounded colonies. E. Blue-green cells easily removed from colonies with pressure. F, G. Cylindrical cells with rounded ends. Scale bars: A–E, 10 μm; F–G, 5 μm." pageId="4" pageNumber="215">Fig. 1 F–G</figureCitation>
|
||||
<figureCitation id="13525BECFFDBEB34E9B6D2BCFDC48FB3" box="[420,549,412,437]" captionStart="FIGURE 1" captionStartId="2.[136,229,1989,2010]" captionTargetBox="[278,1307,652,1959]" captionTargetId="figure-188@2.[278,1309,652,1961]" captionTargetPageId="2" captionText="FIGURE 1. Light micrographs of Aliterella shaanxiensis.A, B. Compact and irregular thallus composed of numerous colonies or solitary cells with colourless and firm mucilaginous envelopes. C, D. Irregular or rounded colonies. E. Blue-green cells easily removed from colonies with pressure. F, G. Cylindrical cells with rounded ends. Scale bars: A–E, 10 μm; F–G, 5 μm." figureDoi="http://doi.org/10.5281/zenodo.13727231" httpUri="https://zenodo.org/record/13727231/files/figure.png" pageId="4" pageNumber="215">Fig. 1 F–G</figureCitation>
|
||||
). With pressure cells were easily removed from colonies while the mucilaginous envelope remained (
|
||||
<figureCitation id="13525BECFFDBEB34E979D2E0FE298FDF" box="[363,456,448,473]" captionStart="FIGURE 1" captionStartId="2.[136,229,1989,2010]" captionTargetBox="[278,1307,652,1959]" captionTargetId="figure-188@2.[278,1309,652,1961]" captionTargetPageId="2" captionText="FIGURE 1. Light micrographs of Aliterella shaanxiensis.A, B. Compact and irregular thallus composed of numerous colonies or solitary cells with colourless and firm mucilaginous envelopes. C, D. Irregular or rounded colonies. E. Blue-green cells easily removed from colonies with pressure. F, G. Cylindrical cells with rounded ends. Scale bars: A–E, 10 μm; F–G, 5 μm." pageId="4" pageNumber="215">Fig. 1 E</figureCitation>
|
||||
<figureCitation id="13525BECFFDBEB34E979D2E0FE298FDF" box="[363,456,448,473]" captionStart="FIGURE 1" captionStartId="2.[136,229,1989,2010]" captionTargetBox="[278,1307,652,1959]" captionTargetId="figure-188@2.[278,1309,652,1961]" captionTargetPageId="2" captionText="FIGURE 1. Light micrographs of Aliterella shaanxiensis.A, B. Compact and irregular thallus composed of numerous colonies or solitary cells with colourless and firm mucilaginous envelopes. C, D. Irregular or rounded colonies. E. Blue-green cells easily removed from colonies with pressure. F, G. Cylindrical cells with rounded ends. Scale bars: A–E, 10 μm; F–G, 5 μm." figureDoi="http://doi.org/10.5281/zenodo.13727231" httpUri="https://zenodo.org/record/13727231/files/figure.png" pageId="4" pageNumber="215">Fig. 1 E</figureCitation>
|
||||
). The chromatoplasm and centroplasm were usually recognizable under light microscopy (
|
||||
<figureCitation id="13525BECFFDBEB34E882D2C4FEF38FFB" box="[144,274,484,509]" captionStart="FIGURE 1" captionStartId="2.[136,229,1989,2010]" captionTargetBox="[278,1307,652,1959]" captionTargetId="figure-188@2.[278,1309,652,1961]" captionTargetPageId="2" captionText="FIGURE 1. Light micrographs of Aliterella shaanxiensis.A, B. Compact and irregular thallus composed of numerous colonies or solitary cells with colourless and firm mucilaginous envelopes. C, D. Irregular or rounded colonies. E. Blue-green cells easily removed from colonies with pressure. F, G. Cylindrical cells with rounded ends. Scale bars: A–E, 10 μm; F–G, 5 μm." pageId="4" pageNumber="215">Fig. 1 E–G</figureCitation>
|
||||
<figureCitation id="13525BECFFDBEB34E882D2C4FEF38FFB" box="[144,274,484,509]" captionStart="FIGURE 1" captionStartId="2.[136,229,1989,2010]" captionTargetBox="[278,1307,652,1959]" captionTargetId="figure-188@2.[278,1309,652,1961]" captionTargetPageId="2" captionText="FIGURE 1. Light micrographs of Aliterella shaanxiensis.A, B. Compact and irregular thallus composed of numerous colonies or solitary cells with colourless and firm mucilaginous envelopes. C, D. Irregular or rounded colonies. E. Blue-green cells easily removed from colonies with pressure. F, G. Cylindrical cells with rounded ends. Scale bars: A–E, 10 μm; F–G, 5 μm." figureDoi="http://doi.org/10.5281/zenodo.13727231" httpUri="https://zenodo.org/record/13727231/files/figure.png" pageId="4" pageNumber="215">Fig. 1 E–G</figureCitation>
|
||||
).
|
||||
</paragraph>
|
||||
<paragraph id="8BD64769FFDBEB34E8AFD128FC868CFF" blockId="4.[136,1452,160,1589]" pageId="4" pageNumber="215">
|
||||
TEM showed that the cells were enveloped by firm and compacted mucilaginous sheath (
|
||||
<figureCitation id="13525BECFFDBEB34ECAAD128FADD8C27" box="[1208,1340,520,545]" captionStart="FIGURE 2" captionStartId="3.[136,229,1957,1978]" captionTargetBox="[189,1397,190,1931]" captionTargetId="figure-14@3.[189,1398,190,1932]" captionTargetPageId="3" captionText="FIGURE 2. Transmission electron micrographs of Aliterella shaanxiensis. A–B. Section of colonies surround by mucilaginous envelopes. C. Cell section showing unstratified firm mucilaginous envelope and polyphosphate body. D. Section of cell in binary fission. E–F.Section of cylindrical cell, showing cell wall, sheath, DNA fibrils, polyphosphate bodies, parietal thylakoids and phycobilisome. Scale bars:A–B, 1 μm; C–F, 0.5 μm. Abbreviations: CW, cell wall; D, DNA fibrils; PB, polyphosphate body; Py, phycobilisome; S, sheath; TH, thylakoids." pageId="4" pageNumber="215">Fig. 2 A–B</figureCitation>
|
||||
<figureCitation id="13525BECFFDBEB34ECAAD128FADD8C27" box="[1208,1340,520,545]" captionStart="FIGURE 2" captionStartId="3.[136,229,1957,1978]" captionTargetBox="[189,1397,190,1931]" captionTargetId="figure-14@3.[189,1398,190,1932]" captionTargetPageId="3" captionText="FIGURE 2. Transmission electron micrographs of Aliterella shaanxiensis. A–B. Section of colonies surround by mucilaginous envelopes. C. Cell section showing unstratified firm mucilaginous envelope and polyphosphate body. D. Section of cell in binary fission. E–F.Section of cylindrical cell, showing cell wall, sheath, DNA fibrils, polyphosphate bodies, parietal thylakoids and phycobilisome. Scale bars:A–B, 1 μm; C–F, 0.5 μm. Abbreviations: CW, cell wall; D, DNA fibrils; PB, polyphosphate body; Py, phycobilisome; S, sheath; TH, thylakoids." figureDoi="http://doi.org/10.5281/zenodo.13727235" httpUri="https://zenodo.org/record/13727235/files/figure.png" pageId="4" pageNumber="215">Fig. 2 A–B</figureCitation>
|
||||
). The cell wall consisted of three layers measured about
|
||||
<quantity id="4C91EA8CFFDBEB34EA98D10CFD318C43" box="[650,720,556,581]" metricMagnitude="-8" metricUnit="m" metricValue="4.0" pageId="4" pageNumber="215" unit="nm" value="40.0">40 nm</quantity>
|
||||
width, in which the electron-dense peptidoglycan layer (
|
||||
<figureCitation id="13525BECFFDBEB34ED58D10CFF7C8C6F" captionStart="FIGURE 2" captionStartId="3.[136,229,1957,1978]" captionTargetBox="[189,1397,190,1931]" captionTargetId="figure-14@3.[189,1398,190,1932]" captionTargetPageId="3" captionText="FIGURE 2. Transmission electron micrographs of Aliterella shaanxiensis. A–B. Section of colonies surround by mucilaginous envelopes. C. Cell section showing unstratified firm mucilaginous envelope and polyphosphate body. D. Section of cell in binary fission. E–F.Section of cylindrical cell, showing cell wall, sheath, DNA fibrils, polyphosphate bodies, parietal thylakoids and phycobilisome. Scale bars:A–B, 1 μm; C–F, 0.5 μm. Abbreviations: CW, cell wall; D, DNA fibrils; PB, polyphosphate body; Py, phycobilisome; S, sheath; TH, thylakoids." pageId="4" pageNumber="215">Fig. 2 C, E</figureCitation>
|
||||
<figureCitation id="13525BECFFDBEB34ED58D10CFF7C8C6F" captionStart="FIGURE 2" captionStartId="3.[136,229,1957,1978]" captionTargetBox="[189,1397,190,1931]" captionTargetId="figure-14@3.[189,1398,190,1932]" captionTargetPageId="3" captionText="FIGURE 2. Transmission electron micrographs of Aliterella shaanxiensis. A–B. Section of colonies surround by mucilaginous envelopes. C. Cell section showing unstratified firm mucilaginous envelope and polyphosphate body. D. Section of cell in binary fission. E–F.Section of cylindrical cell, showing cell wall, sheath, DNA fibrils, polyphosphate bodies, parietal thylakoids and phycobilisome. Scale bars:A–B, 1 μm; C–F, 0.5 μm. Abbreviations: CW, cell wall; D, DNA fibrils; PB, polyphosphate body; Py, phycobilisome; S, sheath; TH, thylakoids." figureDoi="http://doi.org/10.5281/zenodo.13727235" httpUri="https://zenodo.org/record/13727235/files/figure.png" pageId="4" pageNumber="215">Fig. 2 C, E</figureCitation>
|
||||
). The centroplasm and chromatoplasm were usually recognizable. DNA fibrils and spherical polyphosphate bodies were seen in centroplasm via TEM (
|
||||
<figureCitation id="13525BECFFDBEB34EA3FD154FD538C8B" box="[557,690,628,653]" captionStart="FIGURE 2" captionStartId="3.[136,229,1957,1978]" captionTargetBox="[189,1397,190,1931]" captionTargetId="figure-14@3.[189,1398,190,1932]" captionTargetPageId="3" captionText="FIGURE 2. Transmission electron micrographs of Aliterella shaanxiensis. A–B. Section of colonies surround by mucilaginous envelopes. C. Cell section showing unstratified firm mucilaginous envelope and polyphosphate body. D. Section of cell in binary fission. E–F.Section of cylindrical cell, showing cell wall, sheath, DNA fibrils, polyphosphate bodies, parietal thylakoids and phycobilisome. Scale bars:A–B, 1 μm; C–F, 0.5 μm. Abbreviations: CW, cell wall; D, DNA fibrils; PB, polyphosphate body; Py, phycobilisome; S, sheath; TH, thylakoids." pageId="4" pageNumber="215">Fig. 2 C, F</figureCitation>
|
||||
<figureCitation id="13525BECFFDBEB34EA3FD154FD538C8B" box="[557,690,628,653]" captionStart="FIGURE 2" captionStartId="3.[136,229,1957,1978]" captionTargetBox="[189,1397,190,1931]" captionTargetId="figure-14@3.[189,1398,190,1932]" captionTargetPageId="3" captionText="FIGURE 2. Transmission electron micrographs of Aliterella shaanxiensis. A–B. Section of colonies surround by mucilaginous envelopes. C. Cell section showing unstratified firm mucilaginous envelope and polyphosphate body. D. Section of cell in binary fission. E–F.Section of cylindrical cell, showing cell wall, sheath, DNA fibrils, polyphosphate bodies, parietal thylakoids and phycobilisome. Scale bars:A–B, 1 μm; C–F, 0.5 μm. Abbreviations: CW, cell wall; D, DNA fibrils; PB, polyphosphate body; Py, phycobilisome; S, sheath; TH, thylakoids." figureDoi="http://doi.org/10.5281/zenodo.13727235" httpUri="https://zenodo.org/record/13727235/files/figure.png" pageId="4" pageNumber="215">Fig. 2 C, F</figureCitation>
|
||||
). The chromatoplasm was composed of phycobilisomes, glycogen granules, thylakoids and their associated structures (
|
||||
<figureCitation id="13525BECFFDBEB34EAC4D1B8FCB58CB7" box="[726,852,664,689]" captionStart="FIGURE 2" captionStartId="3.[136,229,1957,1978]" captionTargetBox="[189,1397,190,1931]" captionTargetId="figure-14@3.[189,1398,190,1932]" captionTargetPageId="3" captionText="FIGURE 2. Transmission electron micrographs of Aliterella shaanxiensis. A–B. Section of colonies surround by mucilaginous envelopes. C. Cell section showing unstratified firm mucilaginous envelope and polyphosphate body. D. Section of cell in binary fission. E–F.Section of cylindrical cell, showing cell wall, sheath, DNA fibrils, polyphosphate bodies, parietal thylakoids and phycobilisome. Scale bars:A–B, 1 μm; C–F, 0.5 μm. Abbreviations: CW, cell wall; D, DNA fibrils; PB, polyphosphate body; Py, phycobilisome; S, sheath; TH, thylakoids." pageId="4" pageNumber="215">Fig. 2 E–F</figureCitation>
|
||||
<figureCitation id="13525BECFFDBEB34EAC4D1B8FCB58CB7" box="[726,852,664,689]" captionStart="FIGURE 2" captionStartId="3.[136,229,1957,1978]" captionTargetBox="[189,1397,190,1931]" captionTargetId="figure-14@3.[189,1398,190,1932]" captionTargetPageId="3" captionText="FIGURE 2. Transmission electron micrographs of Aliterella shaanxiensis. A–B. Section of colonies surround by mucilaginous envelopes. C. Cell section showing unstratified firm mucilaginous envelope and polyphosphate body. D. Section of cell in binary fission. E–F.Section of cylindrical cell, showing cell wall, sheath, DNA fibrils, polyphosphate bodies, parietal thylakoids and phycobilisome. Scale bars:A–B, 1 μm; C–F, 0.5 μm. Abbreviations: CW, cell wall; D, DNA fibrils; PB, polyphosphate body; Py, phycobilisome; S, sheath; TH, thylakoids." figureDoi="http://doi.org/10.5281/zenodo.13727235" httpUri="https://zenodo.org/record/13727235/files/figure.png" pageId="4" pageNumber="215">Fig. 2 E–F</figureCitation>
|
||||
). The ultrastructure showed that three to five parietal thylakoids could be parallel to the cell wall (
|
||||
<figureCitation id="13525BECFFDBEB34EA8ED19CFCA78CD3" box="[668,838,700,725]" captionStart="FIGURE 2" captionStartId="3.[136,229,1957,1978]" captionTargetBox="[189,1397,190,1931]" captionTargetId="figure-14@3.[189,1398,190,1932]" captionTargetPageId="3" captionText="FIGURE 2. Transmission electron micrographs of Aliterella shaanxiensis. A–B. Section of colonies surround by mucilaginous envelopes. C. Cell section showing unstratified firm mucilaginous envelope and polyphosphate body. D. Section of cell in binary fission. E–F.Section of cylindrical cell, showing cell wall, sheath, DNA fibrils, polyphosphate bodies, parietal thylakoids and phycobilisome. Scale bars:A–B, 1 μm; C–F, 0.5 μm. Abbreviations: CW, cell wall; D, DNA fibrils; PB, polyphosphate body; Py, phycobilisome; S, sheath; TH, thylakoids." pageId="4" pageNumber="215">Fig. 2 C, E–F</figureCitation>
|
||||
<figureCitation id="13525BECFFDBEB34EA8ED19CFCA78CD3" box="[668,838,700,725]" captionStart="FIGURE 2" captionStartId="3.[136,229,1957,1978]" captionTargetBox="[189,1397,190,1931]" captionTargetId="figure-14@3.[189,1398,190,1932]" captionTargetPageId="3" captionText="FIGURE 2. Transmission electron micrographs of Aliterella shaanxiensis. A–B. Section of colonies surround by mucilaginous envelopes. C. Cell section showing unstratified firm mucilaginous envelope and polyphosphate body. D. Section of cell in binary fission. E–F.Section of cylindrical cell, showing cell wall, sheath, DNA fibrils, polyphosphate bodies, parietal thylakoids and phycobilisome. Scale bars:A–B, 1 μm; C–F, 0.5 μm. Abbreviations: CW, cell wall; D, DNA fibrils; PB, polyphosphate body; Py, phycobilisome; S, sheath; TH, thylakoids." figureDoi="http://doi.org/10.5281/zenodo.13727235" httpUri="https://zenodo.org/record/13727235/files/figure.png" pageId="4" pageNumber="215">Fig. 2 C, E–F</figureCitation>
|
||||
). Binary fission occurred via a constrictive pinching mechanism in which all cell wall layers were involved (
|
||||
<figureCitation id="13525BECFFDBEB34EAEBD1C0FCBA8CFF" box="[761,859,736,761]" captionStart="FIGURE 2" captionStartId="3.[136,229,1957,1978]" captionTargetBox="[189,1397,190,1931]" captionTargetId="figure-14@3.[189,1398,190,1932]" captionTargetPageId="3" captionText="FIGURE 2. Transmission electron micrographs of Aliterella shaanxiensis. A–B. Section of colonies surround by mucilaginous envelopes. C. Cell section showing unstratified firm mucilaginous envelope and polyphosphate body. D. Section of cell in binary fission. E–F.Section of cylindrical cell, showing cell wall, sheath, DNA fibrils, polyphosphate bodies, parietal thylakoids and phycobilisome. Scale bars:A–B, 1 μm; C–F, 0.5 μm. Abbreviations: CW, cell wall; D, DNA fibrils; PB, polyphosphate body; Py, phycobilisome; S, sheath; TH, thylakoids." pageId="4" pageNumber="215">Fig. 2 D</figureCitation>
|
||||
<figureCitation id="13525BECFFDBEB34EAEBD1C0FCBA8CFF" box="[761,859,736,761]" captionStart="FIGURE 2" captionStartId="3.[136,229,1957,1978]" captionTargetBox="[189,1397,190,1931]" captionTargetId="figure-14@3.[189,1398,190,1932]" captionTargetPageId="3" captionText="FIGURE 2. Transmission electron micrographs of Aliterella shaanxiensis. A–B. Section of colonies surround by mucilaginous envelopes. C. Cell section showing unstratified firm mucilaginous envelope and polyphosphate body. D. Section of cell in binary fission. E–F.Section of cylindrical cell, showing cell wall, sheath, DNA fibrils, polyphosphate bodies, parietal thylakoids and phycobilisome. Scale bars:A–B, 1 μm; C–F, 0.5 μm. Abbreviations: CW, cell wall; D, DNA fibrils; PB, polyphosphate body; Py, phycobilisome; S, sheath; TH, thylakoids." figureDoi="http://doi.org/10.5281/zenodo.13727235" httpUri="https://zenodo.org/record/13727235/files/figure.png" pageId="4" pageNumber="215">Fig. 2 D</figureCitation>
|
||||
).
|
||||
</paragraph>
|
||||
<paragraph id="8BD64769FFDBEB34E8AFD024FF2A8DF3" blockId="4.[136,1452,160,1589]" pageId="4" pageNumber="215">
|
||||
|
|
@ -197,7 +200,7 @@ width, in which the electron-dense peptidoglycan layer (
|
|||
<emphasis id="B91D9B7BFFDBEB34EB23D008FC7B8D47" box="[817,922,808,833]" italics="true" pageId="4" pageNumber="215">Aliterella</emphasis>
|
||||
</taxonomicName>
|
||||
clade in the Cyanobacteria. ML and Bayesian inference analyses produced similar tree topologies in our phylogenies. ML tree with indication of Bayesian posterior probabilities was shown in
|
||||
<figureCitation id="13525BECFFDBEB34E9D7D050FDEA8D8F" box="[453,523,880,905]" captionStart="FIGURE 3" captionStartId="5.[136,229,1998,2019]" captionTargetBox="[300,1333,199,1964]" captionTargetId="figure-14@5.[165,1421,187,1976]" captionTargetPageId="5" captionText="FIGURE 3. Maximum likelihood phylogenetic tree based on 16S rRNA gene. Numbers at nodes represent bootstrap support values (BP) / posterior probabilities (PP) from maximum likelihood and Bayesian inference, respectively. Only values above 0.50 are shown. The sequences obtained in our study are shaded grey." pageId="4" pageNumber="215">Fig. 3</figureCitation>
|
||||
<figureCitation id="13525BECFFDBEB34E9D7D050FDEA8D8F" box="[453,523,880,905]" captionStart="FIGURE 3" captionStartId="5.[136,229,1998,2019]" captionTargetBox="[300,1333,199,1964]" captionTargetId="figure-14@5.[165,1421,187,1976]" captionTargetPageId="5" captionText="FIGURE 3. Maximum likelihood phylogenetic tree based on 16S rRNA gene. Numbers at nodes represent bootstrap support values (BP) / posterior probabilities (PP) from maximum likelihood and Bayesian inference, respectively. Only values above 0.50 are shown. The sequences obtained in our study are shaded grey." figureDoi="http://doi.org/10.5281/zenodo.13727237" httpUri="https://zenodo.org/record/13727237/files/figure.png" pageId="4" pageNumber="215">Fig. 3</figureCitation>
|
||||
. All
|
||||
<taxonomicName id="4C693CEAFFDBEB34EA54D050FCEC8D8F" box="[582,781,880,905]" pageId="4" pageNumber="215">
|
||||
<emphasis id="B91D9B7BFFDBEB34EA54D050FD4E8D8F" box="[582,687,880,905]" italics="true" pageId="4" pageNumber="215">Aliterella</emphasis>
|
||||
|
|
@ -263,7 +266,7 @@ CENA
|
|||
(
|
||||
<tableCitation id="C6EB72D2FFDBEB34EC66D768FB288A67" box="[1140,1225,1096,1121]" captionStart="TABLE 1" captionStartId="4.[136,224,1637,1660]" captionText="TABLE 1. 16S rRNA gene sequence similarities among three Aliterella strains and their relatives." pageId="4" pageNumber="215">Table 1</tableCitation>
|
||||
). The terminal loop and basal portion of the D1–D1′ helix was relatively conserved among the three strains (
|
||||
<figureCitation id="13525BECFFDBEB34EC5FD74CFB708A83" box="[1101,1169,1132,1157]" captionStart="FIGURE 4" captionStartId="6.[136,229,922,943]" captionTargetBox="[240,1346,197,876]" captionTargetId="figure-13@6.[217,1370,190,897]" captionTargetPageId="6" captionText="FIGURE 4. Predicted secondary structure for D1–D1′ helix of 16S–23S rRNA intergenic spacer of three Aliterella strains. (a) A. antarctica CENA408T; (b) A. atlantica CENA595T; (c) A. shaanxiensis FACHB–2293." pageId="4" pageNumber="215">Fig. 4</figureCitation>
|
||||
<figureCitation id="13525BECFFDBEB34EC5FD74CFB708A83" box="[1101,1169,1132,1157]" captionStart="FIGURE 4" captionStartId="6.[136,229,922,943]" captionTargetBox="[240,1346,197,876]" captionTargetId="figure-13@6.[217,1370,190,897]" captionTargetPageId="6" captionText="FIGURE 4. Predicted secondary structure for D1–D1′ helix of 16S–23S rRNA intergenic spacer of three Aliterella strains. (a) A. antarctica CENA408T; (b) A. atlantica CENA595T; (c) A. shaanxiensis FACHB–2293." figureDoi="http://doi.org/10.5281/zenodo.13727239" httpUri="https://zenodo.org/record/13727239/files/figure.png" pageId="4" pageNumber="215">Fig. 4</figureCitation>
|
||||
). The basal part consisted of a 4 bp helix, followed by a bilateral bulge of 9 bases and a side loop with single unpaired base. The terminal loop was conserved with 5 bp bases. Two bilateral bubbles were observed in the middle portion of D1–D1′ helix from
|
||||
<taxonomicName id="4C693CEAFFDBEB34ED81D794FEA28AF7" authority="CENA" authorityName="CENA" class="Cyanobacteriia" family="Chroococcidiopsidaceae" genus="Aliterella" higherTaxonomySource="GBIF" kingdom="Bacteria" order="Cyanobacteriales" pageId="4" pageNumber="215" phylum="Cyanobacteria" rank="species" species="atlantica">
|
||||
<emphasis id="B91D9B7BFFDBEB34ED81D794FF0D8AF7" italics="true" pageId="4" pageNumber="215">A. atlantica</emphasis>
|
||||
|
|
@ -279,9 +282,9 @@ CENA
|
|||
408
|
||||
<superScript id="7C1CEA21FFDBEB34EAD3D7F6FD2A8AE2" attach="left" box="[705,715,1238,1252]" fontSize="6" pageId="4" pageNumber="215">T</superScript>
|
||||
(
|
||||
<figureCitation id="13525BECFFDBEB34EACED7F8FCAC8AF7" box="[732,845,1240,1265]" captionStart="FIGURE 4" captionStartId="6.[136,229,922,943]" captionTargetBox="[240,1346,197,876]" captionTargetId="figure-13@6.[217,1370,190,897]" captionTargetPageId="6" captionText="FIGURE 4. Predicted secondary structure for D1–D1′ helix of 16S–23S rRNA intergenic spacer of three Aliterella strains. (a) A. antarctica CENA408T; (b) A. atlantica CENA595T; (c) A. shaanxiensis FACHB–2293." pageId="4" pageNumber="215">Fig. 4a, b</figureCitation>
|
||||
<figureCitation id="13525BECFFDBEB34EACED7F8FCAC8AF7" box="[732,845,1240,1265]" captionStart="FIGURE 4" captionStartId="6.[136,229,922,943]" captionTargetBox="[240,1346,197,876]" captionTargetId="figure-13@6.[217,1370,190,897]" captionTargetPageId="6" captionText="FIGURE 4. Predicted secondary structure for D1–D1′ helix of 16S–23S rRNA intergenic spacer of three Aliterella strains. (a) A. antarctica CENA408T; (b) A. atlantica CENA595T; (c) A. shaanxiensis FACHB–2293." figureDoi="http://doi.org/10.5281/zenodo.13727239" httpUri="https://zenodo.org/record/13727239/files/figure.png" pageId="4" pageNumber="215">Fig. 4a, b</figureCitation>
|
||||
); however, one bilateral bubble and two minor loops with 2 bases were observed in in the middle portion from strain FACHB–2293 (
|
||||
<figureCitation id="13525BECFFDBEB34EBE8D7DCFBAD8B13" box="[1018,1100,1276,1301]" captionStart="FIGURE 4" captionStartId="6.[136,229,922,943]" captionTargetBox="[240,1346,197,876]" captionTargetId="figure-13@6.[217,1370,190,897]" captionTargetPageId="6" captionText="FIGURE 4. Predicted secondary structure for D1–D1′ helix of 16S–23S rRNA intergenic spacer of three Aliterella strains. (a) A. antarctica CENA408T; (b) A. atlantica CENA595T; (c) A. shaanxiensis FACHB–2293." pageId="4" pageNumber="215">Fig. 4c</figureCitation>
|
||||
<figureCitation id="13525BECFFDBEB34EBE8D7DCFBAD8B13" box="[1018,1100,1276,1301]" captionStart="FIGURE 4" captionStartId="6.[136,229,922,943]" captionTargetBox="[240,1346,197,876]" captionTargetId="figure-13@6.[217,1370,190,897]" captionTargetPageId="6" captionText="FIGURE 4. Predicted secondary structure for D1–D1′ helix of 16S–23S rRNA intergenic spacer of three Aliterella strains. (a) A. antarctica CENA408T; (b) A. atlantica CENA595T; (c) A. shaanxiensis FACHB–2293." figureDoi="http://doi.org/10.5281/zenodo.13727239" httpUri="https://zenodo.org/record/13727239/files/figure.png" pageId="4" pageNumber="215">Fig. 4c</figureCitation>
|
||||
). In our predicted models, there were 9 base exchanges with one compensatory base change and two hemi-compensatory base changes in the D1–D1′ helix between strain FACHB–2293 and
|
||||
<taxonomicName id="4C693CEAFFDBEB34EA5AD664FCCC8B5B" authority="CENA" authorityName="CENA" box="[584,813,1348,1373]" class="Cyanobacteriia" family="Chroococcidiopsidaceae" genus="Aliterella" higherTaxonomySource="GBIF" kingdom="Bacteria" order="Cyanobacteriales" pageId="4" pageNumber="215" phylum="Cyanobacteria" rank="species" species="antarctica">
|
||||
<emphasis id="B91D9B7BFFDBEB34EA5AD664FD388B5B" box="[584,729,1348,1373]" italics="true" pageId="4" pageNumber="215">A. antarctica</emphasis>
|
||||
|
|
@ -297,7 +300,7 @@ CENA
|
|||
595
|
||||
<superScript id="7C1CEA21FFDBEB34EC41D646FBBD8B72" attach="none" box="[1107,1116,1382,1396]" fontSize="6" pageId="4" pageNumber="215">T</superScript>
|
||||
. The Box-B helix was quite variable in structure (
|
||||
<figureCitation id="13525BECFFDBEB34E96BD6ACFE5C8BA3" box="[377,445,1420,1445]" captionStart="FIGURE 5" captionStartId="6.[136,229,2029,2050]" captionTargetBox="[277,1327,1075,1988]" captionTargetId="figure-49@6.[215,1372,1041,2004]" captionTargetPageId="6" captionText="FIGURE 5. Predicted secondary structure for Box-B helix of 16S–23S rRNA intergenic spacer of three Aliterella strains. (a) A. antarctica CENA408T; (b) A. atlantica CENA595T; (c) A. shaanxiensis FACHB–2293." pageId="4" pageNumber="215">Fig. 5</figureCitation>
|
||||
<figureCitation id="13525BECFFDBEB34E96BD6ACFE5C8BA3" box="[377,445,1420,1445]" captionStart="FIGURE 5" captionStartId="6.[136,229,2029,2050]" captionTargetBox="[277,1327,1075,1988]" captionTargetId="figure-49@6.[215,1372,1041,2004]" captionTargetPageId="6" captionText="FIGURE 5. Predicted secondary structure for Box-B helix of 16S–23S rRNA intergenic spacer of three Aliterella strains. (a) A. antarctica CENA408T; (b) A. atlantica CENA595T; (c) A. shaanxiensis FACHB–2293." figureDoi="http://doi.org/10.5281/zenodo.13727243" httpUri="https://zenodo.org/record/13727243/files/figure.png" pageId="4" pageNumber="215">Fig. 5</figureCitation>
|
||||
). The base of the stem consisted of a 6 or 7 bp helix in
|
||||
<taxonomicName id="4C693CEAFFDBEB34EC3DD6ACFAE68BA3" authority="CENA" authorityName="CENA" box="[1071,1287,1420,1445]" class="Cyanobacteriia" family="Chroococcidiopsidaceae" genus="Aliterella" higherTaxonomySource="GBIF" kingdom="Bacteria" order="Cyanobacteriales" pageId="4" pageNumber="215" phylum="Cyanobacteria" rank="species" species="atlantica">
|
||||
<emphasis id="B91D9B7BFFDBEB34EC3DD6ACFB538BA3" box="[1071,1202,1420,1445]" italics="true" pageId="4" pageNumber="215">A. atlantica</emphasis>
|
||||
|
|
@ -306,7 +309,7 @@ CENA
|
|||
595
|
||||
<superScript id="7C1CEA21FFDBEB34ED3DD6AAFAD88B9E" attach="left" box="[1327,1337,1418,1432]" fontSize="6" pageId="4" pageNumber="215">T</superScript>
|
||||
and strain FACHB–2293 (
|
||||
<figureCitation id="13525BECFFDBEB34E92AD690FE448BCF" box="[312,421,1456,1481]" captionStart="FIGURE 5" captionStartId="6.[136,229,2029,2050]" captionTargetBox="[277,1327,1075,1988]" captionTargetId="figure-49@6.[215,1372,1041,2004]" captionTargetPageId="6" captionText="FIGURE 5. Predicted secondary structure for Box-B helix of 16S–23S rRNA intergenic spacer of three Aliterella strains. (a) A. antarctica CENA408T; (b) A. atlantica CENA595T; (c) A. shaanxiensis FACHB–2293." pageId="4" pageNumber="215">Fig. 5b, c</figureCitation>
|
||||
<figureCitation id="13525BECFFDBEB34E92AD690FE448BCF" box="[312,421,1456,1481]" captionStart="FIGURE 5" captionStartId="6.[136,229,2029,2050]" captionTargetBox="[277,1327,1075,1988]" captionTargetId="figure-49@6.[215,1372,1041,2004]" captionTargetPageId="6" captionText="FIGURE 5. Predicted secondary structure for Box-B helix of 16S–23S rRNA intergenic spacer of three Aliterella strains. (a) A. antarctica CENA408T; (b) A. atlantica CENA595T; (c) A. shaanxiensis FACHB–2293." figureDoi="http://doi.org/10.5281/zenodo.13727243" httpUri="https://zenodo.org/record/13727243/files/figure.png" pageId="4" pageNumber="215">Fig. 5b, c</figureCitation>
|
||||
). A single unpaired base was observed in the base of the stem form
|
||||
<taxonomicName id="4C693CEAFFDBEB34EC86D690FA998BCF" authority="CENA" authorityName="CENA" box="[1172,1400,1456,1481]" class="Cyanobacteriia" family="Chroococcidiopsidaceae" genus="Aliterella" higherTaxonomySource="GBIF" kingdom="Bacteria" order="Cyanobacteriales" pageId="4" pageNumber="215" phylum="Cyanobacteria" rank="species" species="antarctica">
|
||||
<emphasis id="B91D9B7BFFDBEB34EC86D690FAC48BCF" box="[1172,1317,1456,1481]" italics="true" pageId="4" pageNumber="215">A. antarctica</emphasis>
|
||||
|
|
@ -315,7 +318,7 @@ CENA
|
|||
408
|
||||
<superScript id="7C1CEA21FFDBEB34EDB0D68EFA4D8BBA" attach="right" box="[1442,1452,1454,1468]" fontSize="6" pageId="4" pageNumber="215">T</superScript>
|
||||
(
|
||||
<figureCitation id="13525BECFFDBEB34E882D6F4FF008BEB" box="[144,225,1492,1517]" captionStart="FIGURE 5" captionStartId="6.[136,229,2029,2050]" captionTargetBox="[277,1327,1075,1988]" captionTargetId="figure-49@6.[215,1372,1041,2004]" captionTargetPageId="6" captionText="FIGURE 5. Predicted secondary structure for Box-B helix of 16S–23S rRNA intergenic spacer of three Aliterella strains. (a) A. antarctica CENA408T; (b) A. atlantica CENA595T; (c) A. shaanxiensis FACHB–2293." pageId="4" pageNumber="215">Fig. 5a</figureCitation>
|
||||
<figureCitation id="13525BECFFDBEB34E882D6F4FF008BEB" box="[144,225,1492,1517]" captionStart="FIGURE 5" captionStartId="6.[136,229,2029,2050]" captionTargetBox="[277,1327,1075,1988]" captionTargetId="figure-49@6.[215,1372,1041,2004]" captionTargetPageId="6" captionText="FIGURE 5. Predicted secondary structure for Box-B helix of 16S–23S rRNA intergenic spacer of three Aliterella strains. (a) A. antarctica CENA408T; (b) A. atlantica CENA595T; (c) A. shaanxiensis FACHB–2293." figureDoi="http://doi.org/10.5281/zenodo.13727243" httpUri="https://zenodo.org/record/13727243/files/figure.png" pageId="4" pageNumber="215">Fig. 5a</figureCitation>
|
||||
). Two loops with 6 bases were presented in the middle portion from
|
||||
<taxonomicName id="4C693CEAFFDBEB34EBCFD6F4FB528BEB" authority="CENA" authorityName="CENA" box="[989,1203,1492,1517]" class="Cyanobacteriia" family="Chroococcidiopsidaceae" genus="Aliterella" higherTaxonomySource="GBIF" kingdom="Bacteria" order="Cyanobacteriales" pageId="4" pageNumber="215" phylum="Cyanobacteria" rank="species" species="atlantica">
|
||||
<emphasis id="B91D9B7BFFDBEB34EBCFD6F4FBBE8BEB" box="[989,1119,1492,1517]" italics="true" pageId="4" pageNumber="215">A. atlantica</emphasis>
|
||||
|
|
@ -328,9 +331,9 @@ and
|
|||
<emphasis id="B91D9B7BFFDBEB34ED09D6F4FA4A8BEB" box="[1307,1451,1492,1517]" italics="true" pageId="4" pageNumber="215">A. antarctica</emphasis>
|
||||
</taxonomicName>
|
||||
(
|
||||
<figureCitation id="13525BECFFDBEB34E882D6D8FEE18817" box="[144,256,1528,1553]" captionStart="FIGURE 5" captionStartId="6.[136,229,2029,2050]" captionTargetBox="[277,1327,1075,1988]" captionTargetId="figure-49@6.[215,1372,1041,2004]" captionTargetPageId="6" captionText="FIGURE 5. Predicted secondary structure for Box-B helix of 16S–23S rRNA intergenic spacer of three Aliterella strains. (a) A. antarctica CENA408T; (b) A. atlantica CENA595T; (c) A. shaanxiensis FACHB–2293." pageId="4" pageNumber="215">Fig. 5a, b</figureCitation>
|
||||
<figureCitation id="13525BECFFDBEB34E882D6D8FEE18817" box="[144,256,1528,1553]" captionStart="FIGURE 5" captionStartId="6.[136,229,2029,2050]" captionTargetBox="[277,1327,1075,1988]" captionTargetId="figure-49@6.[215,1372,1041,2004]" captionTargetPageId="6" captionText="FIGURE 5. Predicted secondary structure for Box-B helix of 16S–23S rRNA intergenic spacer of three Aliterella strains. (a) A. antarctica CENA408T; (b) A. atlantica CENA595T; (c) A. shaanxiensis FACHB–2293." figureDoi="http://doi.org/10.5281/zenodo.13727243" httpUri="https://zenodo.org/record/13727243/files/figure.png" pageId="4" pageNumber="215">Fig. 5a, b</figureCitation>
|
||||
), whereas a loop with 8 bases, a side loop with 3 bases and a single unpaired base were presented in the middle portion from strain FACHB–2293 (
|
||||
<figureCitation id="13525BECFFDBEB34EA7AD53CFD588833" box="[616,697,1564,1589]" captionStart="FIGURE 5" captionStartId="6.[136,229,2029,2050]" captionTargetBox="[277,1327,1075,1988]" captionTargetId="figure-49@6.[215,1372,1041,2004]" captionTargetPageId="6" captionText="FIGURE 5. Predicted secondary structure for Box-B helix of 16S–23S rRNA intergenic spacer of three Aliterella strains. (a) A. antarctica CENA408T; (b) A. atlantica CENA595T; (c) A. shaanxiensis FACHB–2293." pageId="4" pageNumber="215">Fig. 5c</figureCitation>
|
||||
<figureCitation id="13525BECFFDBEB34EA7AD53CFD588833" box="[616,697,1564,1589]" captionStart="FIGURE 5" captionStartId="6.[136,229,2029,2050]" captionTargetBox="[277,1327,1075,1988]" captionTargetId="figure-49@6.[215,1372,1041,2004]" captionTargetPageId="6" captionText="FIGURE 5. Predicted secondary structure for Box-B helix of 16S–23S rRNA intergenic spacer of three Aliterella strains. (a) A. antarctica CENA408T; (b) A. atlantica CENA595T; (c) A. shaanxiensis FACHB–2293." figureDoi="http://doi.org/10.5281/zenodo.13727243" httpUri="https://zenodo.org/record/13727243/files/figure.png" pageId="4" pageNumber="215">Fig. 5c</figureCitation>
|
||||
).
|
||||
</paragraph>
|
||||
</subSubSection>
|
||||
|
|
|
|||
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Reference in a new issue