treatments-xml/data/03/D5/87/03D5879EFFE2C32239537D801F70F878.xml

<document id="D6E66E000C35BB6EB1DB278DB27ADF09" ID-CLB-Dataset="21475" ID-DOI="10.3161/15081109ACC2017.19.1.003" ID-GBIF-Dataset="4e1384ef-ef30-4f65-95df-aa5eb3f09571" ID-ISSN="1733-5329" ID-Zenodo-Dep="3944816" IM.metadata_approvedBy="felipe" IM.taxonomicNames_approvedBy="felipe" checkinTime="1594740973654" checkinUser="valdenar" docAuthor="Volleth, Marianne, Son, Nguyen Truong, Wu, Yi, Li, Yuchun, Yu, Wenhua, Lin, Liang-Kong, Arai, Satoru, Trifonov, Vladimir, Liehr, Thomas &amp; Harada, Masashi" docDate="2017" docId="03D5879EFFE2C32239537D801F70F878" docLanguage="en" docName="ActaChiropterologica.19.1.41-50.pdf.imf" docOrigin="Acta Chiropterologica 19 (1)" docStyle="DocumentStyle:D17EC282BABB8B0847763DCC9F0C3514.3:ActaChiropterol.2016-.journal_article" docStyleId="D17EC282BABB8B0847763DCC9F0C3514" docStyleName="ActaChiropterol.2016-.journal_article" docStyleVersion="3" docTitle="Rhinolophus luctoides" docType="treatment" docVersion="8" lastPageNumber="43" masterDocId="FFECFFE6FFE1C3213A7A7E561A7FFFCD" masterDocTitle="Comparative chromosomal studies in Rhinolophus formosae and R. luctus from China and Vietnam: elevation of R. l. lanosus to species rank" masterLastPageNumber="50" masterPageNumber="41" pageNumber="43" updateTime="1698843622043" updateUser="ExternalLinkService" zenodo-license-document="CLOSED">
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<mods:title id="B4343D0112BF8A2DE6D7E0D6B5995259">Comparative chromosomal studies in Rhinolophus formosae and R. luctus from China and Vietnam: elevation of R. l. lanosus to species rank</mods:title>
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<mods:namePart id="214BC3E27F1F2AAE778D0BEEFD9F520C">Volleth, Marianne</mods:namePart>
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<mods:namePart id="641CE69F8FB1AA4B6E9D92E2B483A911">Son, Nguyen Truong</mods:namePart>
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<mods:namePart id="14A2D92F9840B56F31E315CEB27C486A">Wu, Yi</mods:namePart>
<mods:affiliation id="801D2A632DBBB6E7ED00765861B2E0D3">College of Life Sciences, Guangzhou University, 230 Wei Huan Xi Road, Guangzhou, 510006, China</mods:affiliation>
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<mods:namePart id="B819D73EA6D502EB722861618A5D6C65">Yu, Wenhua</mods:namePart>
<mods:affiliation id="86CCBA61E4DB41B017D06AB4F4B3956C">College of Life Sciences, Guangzhou University, 230 Wei Huan Xi Road, Guangzhou, 510006, China</mods:affiliation>
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<mods:namePart id="911D19838DBDA8A0742C028E71A5E6AC">Lin, Liang-Kong</mods:namePart>
<mods:affiliation id="D51B38737BDFF1F067EF89CE9DA3C656">Laboratory of Wildlife Ecology, Department of Biology, Tunghai University, No. 1727, Sec. 4. Taiwan Boulevard, Xitun District, Taichung 40704, Taiwan</mods:affiliation>
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<mods:namePart id="7230F4A135D0B989C431332BAB387E0F">Arai, Satoru</mods:namePart>
<mods:affiliation id="C27D757D03843EBF191D86FF256D50A5">Infectious Disease Surveillance Center, National Institute of Infectious Diseases, Toyama 1 - 23 - 1, Shinjuku, Tokyo 162 - 8640, Japan</mods:affiliation>
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<mods:namePart id="6B4058E434137B0CD63AA6A0BA43CF31">Trifonov, Vladimir</mods:namePart>
<mods:affiliation id="13B7A442858AB24EAAEEF927A9149054">Institute of Human Genetics, Jena University Hospital, Friedrich-Schiller University, Kollegiengasse 10, 07743 Jena, Germany</mods:affiliation>
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<mods:affiliation id="588976EC3C5B12A7D14C8AA702D651DA">Institute of Molecular and Cellular Biology, Siberian Branch of RAS, 8 Ac. Lavrentieva Avenue, Novosibirsk 630090, Russia</mods:affiliation>
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<mods:namePart id="EE1CA965BCB8BBC0E9049236FD4D7FDB">Harada, Masashi</mods:namePart>
<mods:affiliation id="2CD4C9828EEC1E719C9885D42A44FEDC">Laboratory Animal Center, Graduate School of Medicine, Osaka City University, Abeno, Osaka 545 - 8585, Japan Corresponding author: E-mail: Marianne. Volleth @ med. ovgu. de</mods:affiliation>
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<treatment id="03D5879EFFE2C32239537D801F70F878" ID-DOI="http://doi.org/10.5281/zenodo.4328140" ID-GBIF-Taxon="165089440" ID-Zenodo-Dep="4328140" LSID="urn:lsid:plazi:treatment:03D5879EFFE2C32239537D801F70F878" httpUri="http://treatment.plazi.org/id/03D5879EFFE2C32239537D801F70F878" lastPageNumber="43" pageId="3" pageNumber="43">
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<paragraph id="8BC33688FFE2C32239537D801E2AFC3D" blockId="3.[809,1109,982,1008]" box="[809,1109,982,1008]" pageId="3" pageNumber="43">
<heading id="D08B81E4FFE2C32239537D801E2AFC3D" box="[809,1109,982,1008]" pageId="3" pageNumber="43">
<taxonomicName id="4C7C4D0BFFE2C32239537D801E2AFC3D" ID-CoL="5TJFS" box="[809,1109,982,1008]" class="Mammalia" family="Rhinolophidae" genus="Rhinolophus" kingdom="Animalia" order="Chiroptera" pageId="3" pageNumber="43" phylum="Chordata" rank="species" species="luctoides">
Rhinolophus 
<emphasis id="B908EA9AFFE2C32239BD7D80199BFC3D" box="[967,996,982,1008]" italics="true" pageId="3" pageNumber="43">cf.</emphasis>
luctoides
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<paragraph id="8BC33688FFE2C32239357A591F5CF98E" blockId="3.[809,1422,1039,1973]" pageId="3" pageNumber="43">
The male from 
<collectingCountry id="F36B7618FFE2C3223E707A591E0FFBE4" box="[1034,1136,1039,1065]" name="Vietnam" pageId="3" pageNumber="43">Vietnam</collectingCountry>
, morphologically determined as 
<taxonomicName id="4C7C4D0BFFE2C32239C87A671E59FB86" baseAuthorityName="Tate" baseAuthorityYear="1943" box="[946,1062,1073,1099]" class="Mammalia" family="Rhinolophidae" genus="Rhinolophus" kingdom="Animalia" order="Chiroptera" pageId="3" pageNumber="43" phylum="Chordata" rank="species" species="luctus">
<emphasis id="B908EA9AFFE2C32239C87A671E59FB86" box="[946,1062,1073,1099]" italics="true" pageId="3" pageNumber="43">R. luctus</emphasis>
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, showed a karyotype with a diploid chromosome number of 2 
<emphasis id="B908EA9AFFE2C3223EA67A041E94FBA1" box="[1244,1259,1106,1132]" italics="true" pageId="3" pageNumber="43">n</emphasis>
= 32 and an autosomal fundamental number of FNa = 60. The karyotype consisted of 15 meta- to submetacentric autosomal pairs ranging from large to small, a large metacentric X chromosome and a large acrocentric Y chromosome (
<figureCitation id="13472A0DFFE2C322398F7AAD1E41FAD8" box="[1013,1086,1275,1301]" captionStart="FIG" captionStartId="4.[151,164,928,949]" captionTargetBox="[177,715,177,901]" captionTargetId="figure@4.[151,765,173,909]" captionTargetPageId="4" captionText="FIG. 1. G-banded karyotype of the R. cf. luctoides male from Vietnam. Numbers to the right of each chromosome pair indicate homology to A. stoliczkanus (AST) chromosomal arms as revealed by FISH with AST probes and G-band comparison. On the left of each chromosomal pair, homology to chromosomal arms or segments of the vespertilionid Myotis myotis (MMY) is given. The inset shows the heterochromatic segments of the" figureDoi="http://doi.org/10.5281/zenodo.3944818" httpUri="https://zenodo.org/record/3944818/files/figure.png" pageId="3" pageNumber="43">Fig. 1</figureCitation>
). C-banding revealed heterochromatin at all centromeres, in the proximal half of the short arm of the X chromosome, and in the Y chromosome with exception to the very proximal part (
<figureCitation id="13472A0DFFE2C32239177BD719ADFA56" box="[877,978,1409,1435]" captionStart="FIG" captionStartId="4.[809,822,1896,1917]" captionTargetBox="[827,1413,1091,1878]" captionTargetId="figure@4.[821,1421,1088,1878]" captionTargetPageId="4" captionText="FIG. 2. Metaphase spreads of R. cf. luctoides after CBG-staining (A) and silver-staining (B), respectively. The arrows in B" figureDoi="http://doi.org/10.5281/zenodo.3944820" httpUri="https://zenodo.org/record/3944820/files/figure.png" pageId="3" pageNumber="43">Fig. 2A</figureCitation>
). The secondary constriction in the short arm of chromosomal pair 8 (homologous to MMY21 and AST10) was proven to be the single site of Nucleolus Organizer Region (NOR) by silver-staining (
<figureCitation id="13472A0DFFE2C32239BD785E1E58F9EF" box="[967,1063,1544,1570]" captionStart="FIG" captionStartId="4.[809,822,1896,1917]" captionTargetBox="[827,1413,1091,1878]" captionTargetId="figure@4.[821,1421,1088,1878]" captionTargetPageId="4" captionText="FIG. 2. Metaphase spreads of R. cf. luctoides after CBG-staining (A) and silver-staining (B), respectively. The arrows in B" figureDoi="http://doi.org/10.5281/zenodo.3944820" httpUri="https://zenodo.org/record/3944820/files/figure.png" pageId="3" pageNumber="43">Fig. 2B</figureCitation>
). The mean number of active NORs per cell was 1.7 (20 cells analyzed).
</paragraph>
<paragraph id="8BC33688FFE2C3223935781D1F70F878" blockId="3.[809,1422,1039,1973]" pageId="3" pageNumber="43">
The G-banding pattern of autosomal pairs was found to be similar to 
<taxonomicName id="4C7C4D0BFFE2C3223E39783B190EF965" authority="(Volleth et al., 2015)" baseAuthorityName="Volleth" baseAuthorityYear="2015" class="Mammalia" family="Rhinolophidae" genus="Rhinolophus" kingdom="Animalia" order="Chiroptera" pageId="3" pageNumber="43" phylum="Chordata" rank="species" species="luctoides">
<emphasis id="B908EA9AFFE2C3223E39783B1EAEF94A" box="[1091,1233,1645,1671]" italics="true" pageId="3" pageNumber="43">R. luctoides</emphasis>
(
<bibRefCitation id="EFED4B79FFE2C3223E9F783B1916F965" author="VOLLETH, M. &amp; J. LOIDL &amp; F. MAYER &amp; H. - S. YONG &amp; S. MULLER &amp; K. - G. HELLER" pageId="3" pageNumber="43" pagination="1 - 20" refId="ref7366" refString="VOLLETH, M., J. LOIDL, F. MAYER, H. - S. YONG, S. MULLER, and K. - G. HELLER. 2015. Surprising genetic diversity in Rhinolophus luctus (Chiroptera: Rhinolophidae) from Peninsular Malaysia: description of a new species based on genetic and morphological characters. Acta Chiropterologica, 17: 1 - 20." type="journal article" year="2015">
Volleth 
<emphasis id="B908EA9AFFE2C3223F3D783B1FF9F94A" box="[1351,1414,1645,1671]" italics="true" pageId="3" pageNumber="43">et al.</emphasis>
, 2015
</bibRefCitation>
)
</taxonomicName>
. The identical arm composition of autosomes as in 
<taxonomicName id="4C7C4D0BFFE2C322390278E61E74F907" box="[888,1035,1712,1738]" class="Mammalia" family="Rhinolophidae" genus="Rhinolophus" kingdom="Animalia" order="Chiroptera" pageId="3" pageNumber="43" phylum="Chordata" rank="species" species="luctoides">
<emphasis id="B908EA9AFFE2C322390278E61E74F907" box="[888,1035,1712,1738]" italics="true" pageId="3" pageNumber="43">R. luctoides</emphasis>
</taxonomicName>
was confirmed by the results of whole chromosome painting with probes from 
<taxonomicName id="4C7C4D0BFFE2C322395378A5199FF8C0" baseAuthorityName="Dobson" baseAuthorityYear="1871" box="[809,992,1779,1805]" class="Mammalia" family="Hipposideridae" genus="Aselliscus" kingdom="Animalia" order="Chiroptera" pageId="3" pageNumber="43" phylum="Chordata" rank="species" species="stoliczkanus">
<emphasis id="B908EA9AFFE2C322395378A5199FF8C0" box="[809,992,1779,1805]" italics="true" pageId="3" pageNumber="43">A. stoliczkanus</emphasis>
</taxonomicName>
(AST), complemented with some probes from 
<taxonomicName id="4C7C4D0BFFE2C32239B279431E3EF8E2" box="[968,1089,1813,1839]" class="Mammalia" family="Vespertilionidae" genus="Myotis" kingdom="Animalia" order="Chiroptera" pageId="3" pageNumber="43" phylum="Chordata" rank="species" species="myotis">
<emphasis id="B908EA9AFFE2C32239B279431E3EF8E2" box="[968,1089,1813,1839]" italics="true" pageId="3" pageNumber="43">M. myotis</emphasis>
</taxonomicName>
(MMY3/4 and MMY8 for pair 1). The hybridization results are summarized on the karyotype (
<figureCitation id="13472A0DFFE2C3223993790E1E4AF8BF" box="[1001,1077,1880,1906]" captionStart="FIG" captionStartId="4.[151,164,928,949]" captionTargetBox="[177,715,177,901]" captionTargetId="figure@4.[151,765,173,909]" captionTargetPageId="4" captionText="FIG. 1. G-banded karyotype of the R. cf. luctoides male from Vietnam. Numbers to the right of each chromosome pair indicate homology to A. stoliczkanus (AST) chromosomal arms as revealed by FISH with AST probes and G-band comparison. On the left of each chromosomal pair, homology to chromosomal arms or segments of the vespertilionid Myotis myotis (MMY) is given. The inset shows the heterochromatic segments of the" figureDoi="http://doi.org/10.5281/zenodo.3944818" httpUri="https://zenodo.org/record/3944818/files/figure.png" pageId="3" pageNumber="43">Fig. 1</figureCitation>
). Painting probes from biarmed AST autosomes hybridized to two different pairs each (examples in 
<figureCitation id="13472A0DFFE2C3223E3D79CD1F7DF878" box="[1095,1282,1947,1973]" captionStart="FIG" captionStartId="5.[151,164,1032,1053]" captionTargetBox="[152,1421,174,1012]" captionTargetId="figure@5.[162,1410,175,1007]" captionTargetPageId="5" captionText="FIG. 3. FISH examples showing the hybridization patterns of A. stoliczkanus (AST) chromosome-specific painting probes onto metaphase spreads of R. cf. luctoides (A, D), R. lanosus (B, E) and R. formosae (C, F). A–C — hybridization signals of AST1 (red) and AST8 (green) meet in chromosome 5 in R. cf. luctoides (A) and R. lanosus (B) but not in R. formosae (C). In B and C AST X (yellow) was applied in addition. D, E — hybridization signals of AST2 (green) and AST5 (red) meet in chromosome 3 of R. cf. luctoides (D), but not in R. lanosus (E), where AST2 (green) is found in combination with AST1 (red) on chromosome 4 instead." figureDoi="http://doi.org/10.5281/zenodo.3944824" httpUri="https://zenodo.org/record/3944824/files/figure.png" pageId="3" pageNumber="43">Fig. 3A and 3D</figureCitation>
).
</paragraph>
</subSubSection>
</treatment>
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