124 lines
62 KiB
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124 lines
62 KiB
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<document id="8AB041794AC86630F8D0E92CFD63FBA4" ID-CLB-Dataset="281827" ID-DOI="10.1016/j.jcz.2023.05.003" ID-GBIF-Dataset="fef84de4-8e9b-4218-84b9-1c3a3c507240" ID-ISSN="1873-2674" ID-Zenodo-Dep="10376067" IM.bibliography_approvedBy="felipe" IM.illustrations_approvedBy="felipe" IM.materialsCitations_approvedBy="felipe" IM.metadata_approvedBy="felipe" IM.taxonomicNames_approvedBy="felipe" IM.treatments_approvedBy="felipe" checkinTime="1702540870477" checkinUser="felipe" docAuthor="Poddubnaya, Larisa G., Hemmingsen, Willy & MacKenzie, Ken" docDate="2023" docId="03CA3B6FF333FFC9FF82D08BFBEBC01A" docLanguage="en" docName="ZoolAnz.305.11-22.pdf" docOrigin="Zoologischer Anzeiger 305" docSource="http://dx.doi.org/10.1016/j.jcz.2023.05.003" docStyle="DocumentStyle:32483D6D135DE2FF927BA3F1400E0FFD.1:ZoolAnz.2022-.journal_article" docStyleId="32483D6D135DE2FF927BA3F1400E0FFD" docStyleName="ZoolAnz.2022-.journal_article" docStyleVersion="1" docTitle="Aporocotyle simplex" docType="treatment" docVersion="5" lastPageNumber="16" masterDocId="FFF34317F336FFCCFFE6D47AFFD2C425" masterDocTitle="Digestive system of the marine blood fluke, Aporocotyle simplex (Odhner, 1900) (Digenea: Aporocotylidae) with consideration of the digenean digestive morphology" masterLastPageNumber="22" masterPageNumber="11" pageNumber="16" updateTime="1702549078174" updateUser="ExternalLinkService">
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<mods:title id="F02169719C635E2314E565F7FF97A499">Digestive system of the marine blood fluke, Aporocotyle simplex (Odhner, 1900) (Digenea: Aporocotylidae) with consideration of the digenean digestive morphology</mods:title>
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<mods:namePart id="430588575C0F1523B83BEC80E2B3C7C0">Poddubnaya, Larisa G.</mods:namePart>
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<mods:namePart id="33E5268B4A7F092ADF565A3E061FB5BA">Hemmingsen, Willy</mods:namePart>
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<mods:namePart id="235A83A686EFB21C2091B7A9DD6AD4A9">MacKenzie, Ken</mods:namePart>
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<mods:title id="EDC33D470F24CEA240F6419E2E71A0A8">Zoologischer Anzeiger</mods:title>
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<treatment id="03CA3B6FF333FFC9FF82D08BFBEBC01A" ID-DOI="http://doi.org/10.5281/zenodo.10375363" ID-GBIF-Taxon="219861656" ID-Zenodo-Dep="10375363" LSID="urn:lsid:plazi:treatment:03CA3B6FF333FFC9FF82D08BFBEBC01A" httpUri="http://treatment.plazi.org/id/03CA3B6FF333FFC9FF82D08BFBEBC01A" lastPageNumber="16" pageId="5" pageNumber="16">
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<subSubSection id="C379D9F2F333FFC9FF82D08BFE5AC121" box="[100,392,1265,1284]" pageId="5" pageNumber="16" type="nomenclature">
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<paragraph id="8BDC8A79F333FFC9FF82D08BFE5AC121" blockId="5.[100,392,1265,1284]" box="[100,392,1265,1284]" pageId="5" pageNumber="16">
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<heading id="D0943D15F333FFC9FF82D08BFE5AC121" box="[100,392,1265,1284]" fontSize="36" level="2" pageId="5" pageNumber="16" reason="3">
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3.4. Gastrodermis of
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<taxonomicName id="4C63F1FAF333FFC9FECCD08BFE5AC121" ID-CoL="67QN2" baseAuthorityName="Odhner" baseAuthorityYear="1900" box="[298,392,1265,1284]" class="Trematoda" family="Aporocotylidae" genus="Aporocotyle" kingdom="Animalia" order="Diplostomida" pageId="5" pageNumber="16" phylum="Platyhelminthes" rank="species" species="simplex">A. simplex</taxonomicName>
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<subSubSection id="C379D9F2F333FFC9FF62D153FBEBC01A" pageId="5" pageNumber="16" type="description">
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<paragraph id="8BDC8A79F333FFC9FF62D153FBEBC01A" blockId="5.[100,771,1321,1982]" lastBlockId="5.[818,1488,147,1088]" pageId="5" pageNumber="16">
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Along its entire length, the syncytial epithelial lining of the caecum is composed of a morphologically uniform, syncytial layer, possessing considerable variation in the thickness of the epithelial lining from 0.5 to 15.0 μm, without marked differences between its anterior and posterior regions (
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<figureCitation id="135896FCF333FFC9FF09D1E3FEBFC189" box="[239,365,1433,1452]" captionStart="Fig" captionStartId="6.[100,130,1695,1712]" captionTargetBox="[207,1380,149,1666]" captionTargetId="figure-8@6.[206,1381,148,1667]" captionTargetPageId="6" captionText="Fig. 4. Ultrastructure of the caecum of Aporocotyle simplex (A) Cross section through caecal portion showing relatively homogeneous and non-cellular content of the caecal lumen, note large dense inclusions and variable residual bodies; insert Type of residual body (B) Area of caecum showing different thickness of cytoplasmic lining, note nucleus, surface lamellae (C) Large residual body in the gastrodermal cytoplasm, note deep basal invaginations (D) Residual body occupying most of the thickness of the gastrodermal cytoplasm, note moderately dense body content and clumps of inclusions of different shapes (E) Tubular structure in the gastrodermal cytoplasm (F) Residual body, note Golgi vesicles within and in contact with it (G) Multivesiculate body and Golgi vesicles (H) Portion of syncytial gastrodermal cytoplasm showing developed stages of large residual bodies, insert Granular endoplasmic reticulum and Golgi vesicles (I, J) Gastrodermal vacuolated surface areas in a secretory-absorptive phase, note surface depressions and an agglomeration of residual material between lamellae (K) Portion of gastrodermal cytoplasm filled with different kinds of vesicles and residual bodies during secretory-absorptive phase. Abbreviations: arm, agglomeration of residual material; bi, basal infoldings; cl, caecal lumen; di, dense inclusion; dlb1, dlb2, developed residual bodies; dm, dense material; gc, gastrodermal syncytial cytoplasm; ger, granular endoplasmic reticulum; gv, Golgi vesicles; hm, haematin; lb, large residual body; mb, multivesiculate body; nb, nascent residual body; sl, surface lamellae; sd, surface depression; rb, residual body; other abbreviations in Figs. 1–3. Scale bars: A = 50 μm; inserts, E, F = 0.2 μm; B, С = 2 μm; D, G, H = 0.5 μm; I – K = 1 μm." figureDoi="http://doi.org/10.5281/zenodo.10376075" httpUri="https://zenodo.org/record/10376075/files/figure.png" pageId="5" pageNumber="16">Fig. 4A and B</figureCitation>
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). Most of the luminal volume of the caecum is filled with moderately dense amorphous finely dispersed material (
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<figureCitation id="135896FCF333FFC9FF8AD1AAFF2AC1C6" box="[108,248,1488,1508]" captionStart="Fig" captionStartId="6.[100,130,1695,1712]" captionTargetBox="[207,1380,149,1666]" captionTargetId="figure-8@6.[206,1381,148,1667]" captionTargetPageId="6" captionText="Fig. 4. Ultrastructure of the caecum of Aporocotyle simplex (A) Cross section through caecal portion showing relatively homogeneous and non-cellular content of the caecal lumen, note large dense inclusions and variable residual bodies; insert Type of residual body (B) Area of caecum showing different thickness of cytoplasmic lining, note nucleus, surface lamellae (C) Large residual body in the gastrodermal cytoplasm, note deep basal invaginations (D) Residual body occupying most of the thickness of the gastrodermal cytoplasm, note moderately dense body content and clumps of inclusions of different shapes (E) Tubular structure in the gastrodermal cytoplasm (F) Residual body, note Golgi vesicles within and in contact with it (G) Multivesiculate body and Golgi vesicles (H) Portion of syncytial gastrodermal cytoplasm showing developed stages of large residual bodies, insert Granular endoplasmic reticulum and Golgi vesicles (I, J) Gastrodermal vacuolated surface areas in a secretory-absorptive phase, note surface depressions and an agglomeration of residual material between lamellae (K) Portion of gastrodermal cytoplasm filled with different kinds of vesicles and residual bodies during secretory-absorptive phase. Abbreviations: arm, agglomeration of residual material; bi, basal infoldings; cl, caecal lumen; di, dense inclusion; dlb1, dlb2, developed residual bodies; dm, dense material; gc, gastrodermal syncytial cytoplasm; ger, granular endoplasmic reticulum; gv, Golgi vesicles; hm, haematin; lb, large residual body; mb, multivesiculate body; nb, nascent residual body; sl, surface lamellae; sd, surface depression; rb, residual body; other abbreviations in Figs. 1–3. Scale bars: A = 50 μm; inserts, E, F = 0.2 μm; B, С = 2 μm; D, G, H = 0.5 μm; I – K = 1 μm." figureDoi="http://doi.org/10.5281/zenodo.10376075" httpUri="https://zenodo.org/record/10376075/files/figure.png" pageId="5" pageNumber="16">Fig. 4A, B, I, K</figureCitation>
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). In addition, there are both dark inclusions of different shape and different kinds of residual bodies within the caecal lumen (
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<figureCitation id="135896FCF333FFC9FF8AD272FED2C23E" box="[108,256,1544,1563]" captionStart="Fig" captionStartId="6.[100,130,1695,1712]" captionTargetBox="[207,1380,149,1666]" captionTargetId="figure-8@6.[206,1381,148,1667]" captionTargetPageId="6" captionText="Fig. 4. Ultrastructure of the caecum of Aporocotyle simplex (A) Cross section through caecal portion showing relatively homogeneous and non-cellular content of the caecal lumen, note large dense inclusions and variable residual bodies; insert Type of residual body (B) Area of caecum showing different thickness of cytoplasmic lining, note nucleus, surface lamellae (C) Large residual body in the gastrodermal cytoplasm, note deep basal invaginations (D) Residual body occupying most of the thickness of the gastrodermal cytoplasm, note moderately dense body content and clumps of inclusions of different shapes (E) Tubular structure in the gastrodermal cytoplasm (F) Residual body, note Golgi vesicles within and in contact with it (G) Multivesiculate body and Golgi vesicles (H) Portion of syncytial gastrodermal cytoplasm showing developed stages of large residual bodies, insert Granular endoplasmic reticulum and Golgi vesicles (I, J) Gastrodermal vacuolated surface areas in a secretory-absorptive phase, note surface depressions and an agglomeration of residual material between lamellae (K) Portion of gastrodermal cytoplasm filled with different kinds of vesicles and residual bodies during secretory-absorptive phase. Abbreviations: arm, agglomeration of residual material; bi, basal infoldings; cl, caecal lumen; di, dense inclusion; dlb1, dlb2, developed residual bodies; dm, dense material; gc, gastrodermal syncytial cytoplasm; ger, granular endoplasmic reticulum; gv, Golgi vesicles; hm, haematin; lb, large residual body; mb, multivesiculate body; nb, nascent residual body; sl, surface lamellae; sd, surface depression; rb, residual body; other abbreviations in Figs. 1–3. Scale bars: A = 50 μm; inserts, E, F = 0.2 μm; B, С = 2 μm; D, G, H = 0.5 μm; I – K = 1 μm." figureDoi="http://doi.org/10.5281/zenodo.10376075" httpUri="https://zenodo.org/record/10376075/files/figure.png" pageId="5" pageNumber="16">Fig. 4A and K</figureCitation>
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). The gastrodermal luminal surface is increased by numerous thin, flexible lamellae, which project a short distance into the lumen and range in length from 0.9 to 2.5 μm (
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<figureCitation id="135896FCF333FFC9FDFCD23AFD48C276" box="[538,666,1600,1619]" captionStart="Fig" captionStartId="6.[100,130,1695,1712]" captionTargetBox="[207,1380,149,1666]" captionTargetId="figure-8@6.[206,1381,148,1667]" captionTargetPageId="6" captionText="Fig. 4. Ultrastructure of the caecum of Aporocotyle simplex (A) Cross section through caecal portion showing relatively homogeneous and non-cellular content of the caecal lumen, note large dense inclusions and variable residual bodies; insert Type of residual body (B) Area of caecum showing different thickness of cytoplasmic lining, note nucleus, surface lamellae (C) Large residual body in the gastrodermal cytoplasm, note deep basal invaginations (D) Residual body occupying most of the thickness of the gastrodermal cytoplasm, note moderately dense body content and clumps of inclusions of different shapes (E) Tubular structure in the gastrodermal cytoplasm (F) Residual body, note Golgi vesicles within and in contact with it (G) Multivesiculate body and Golgi vesicles (H) Portion of syncytial gastrodermal cytoplasm showing developed stages of large residual bodies, insert Granular endoplasmic reticulum and Golgi vesicles (I, J) Gastrodermal vacuolated surface areas in a secretory-absorptive phase, note surface depressions and an agglomeration of residual material between lamellae (K) Portion of gastrodermal cytoplasm filled with different kinds of vesicles and residual bodies during secretory-absorptive phase. Abbreviations: arm, agglomeration of residual material; bi, basal infoldings; cl, caecal lumen; di, dense inclusion; dlb1, dlb2, developed residual bodies; dm, dense material; gc, gastrodermal syncytial cytoplasm; ger, granular endoplasmic reticulum; gv, Golgi vesicles; hm, haematin; lb, large residual body; mb, multivesiculate body; nb, nascent residual body; sl, surface lamellae; sd, surface depression; rb, residual body; other abbreviations in Figs. 1–3. Scale bars: A = 50 μm; inserts, E, F = 0.2 μm; B, С = 2 μm; D, G, H = 0.5 μm; I – K = 1 μm." figureDoi="http://doi.org/10.5281/zenodo.10376075" httpUri="https://zenodo.org/record/10376075/files/figure.png" pageId="5" pageNumber="16">Fig. 4B and K</figureCitation>
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). The basal plasma membrane of the gastrodermal syncytial lining is thrown into numerous basal invaginations, which may be confined to the lower haft of the gastrodermis, but may extend to the luminal membrane (
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<figureCitation id="135896FCF333FFC9FD54D2EEFD25C282" box="[690,759,1684,1703]" captionStart="Fig" captionStartId="6.[100,130,1695,1712]" captionTargetBox="[207,1380,149,1666]" captionTargetId="figure-8@6.[206,1381,148,1667]" captionTargetPageId="6" captionText="Fig. 4. Ultrastructure of the caecum of Aporocotyle simplex (A) Cross section through caecal portion showing relatively homogeneous and non-cellular content of the caecal lumen, note large dense inclusions and variable residual bodies; insert Type of residual body (B) Area of caecum showing different thickness of cytoplasmic lining, note nucleus, surface lamellae (C) Large residual body in the gastrodermal cytoplasm, note deep basal invaginations (D) Residual body occupying most of the thickness of the gastrodermal cytoplasm, note moderately dense body content and clumps of inclusions of different shapes (E) Tubular structure in the gastrodermal cytoplasm (F) Residual body, note Golgi vesicles within and in contact with it (G) Multivesiculate body and Golgi vesicles (H) Portion of syncytial gastrodermal cytoplasm showing developed stages of large residual bodies, insert Granular endoplasmic reticulum and Golgi vesicles (I, J) Gastrodermal vacuolated surface areas in a secretory-absorptive phase, note surface depressions and an agglomeration of residual material between lamellae (K) Portion of gastrodermal cytoplasm filled with different kinds of vesicles and residual bodies during secretory-absorptive phase. Abbreviations: arm, agglomeration of residual material; bi, basal infoldings; cl, caecal lumen; di, dense inclusion; dlb1, dlb2, developed residual bodies; dm, dense material; gc, gastrodermal syncytial cytoplasm; ger, granular endoplasmic reticulum; gv, Golgi vesicles; hm, haematin; lb, large residual body; mb, multivesiculate body; nb, nascent residual body; sl, surface lamellae; sd, surface depression; rb, residual body; other abbreviations in Figs. 1–3. Scale bars: A = 50 μm; inserts, E, F = 0.2 μm; B, С = 2 μm; D, G, H = 0.5 μm; I – K = 1 μm." figureDoi="http://doi.org/10.5281/zenodo.10376075" httpUri="https://zenodo.org/record/10376075/files/figure.png" pageId="5" pageNumber="16">Fig. 4C</figureCitation>
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). The gastrodermal lining is underlain by a thin basal lamina and thicker layer of fibrous extracellular matrix (
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<figureCitation id="135896FCF333FFC9FE36D2B1FDCBC2FA" box="[464,537,1739,1759]" captionStart="Fig" captionStartId="6.[100,130,1695,1712]" captionTargetBox="[207,1380,149,1666]" captionTargetId="figure-8@6.[206,1381,148,1667]" captionTargetPageId="6" captionText="Fig. 4. Ultrastructure of the caecum of Aporocotyle simplex (A) Cross section through caecal portion showing relatively homogeneous and non-cellular content of the caecal lumen, note large dense inclusions and variable residual bodies; insert Type of residual body (B) Area of caecum showing different thickness of cytoplasmic lining, note nucleus, surface lamellae (C) Large residual body in the gastrodermal cytoplasm, note deep basal invaginations (D) Residual body occupying most of the thickness of the gastrodermal cytoplasm, note moderately dense body content and clumps of inclusions of different shapes (E) Tubular structure in the gastrodermal cytoplasm (F) Residual body, note Golgi vesicles within and in contact with it (G) Multivesiculate body and Golgi vesicles (H) Portion of syncytial gastrodermal cytoplasm showing developed stages of large residual bodies, insert Granular endoplasmic reticulum and Golgi vesicles (I, J) Gastrodermal vacuolated surface areas in a secretory-absorptive phase, note surface depressions and an agglomeration of residual material between lamellae (K) Portion of gastrodermal cytoplasm filled with different kinds of vesicles and residual bodies during secretory-absorptive phase. Abbreviations: arm, agglomeration of residual material; bi, basal infoldings; cl, caecal lumen; di, dense inclusion; dlb1, dlb2, developed residual bodies; dm, dense material; gc, gastrodermal syncytial cytoplasm; ger, granular endoplasmic reticulum; gv, Golgi vesicles; hm, haematin; lb, large residual body; mb, multivesiculate body; nb, nascent residual body; sl, surface lamellae; sd, surface depression; rb, residual body; other abbreviations in Figs. 1–3. Scale bars: A = 50 μm; inserts, E, F = 0.2 μm; B, С = 2 μm; D, G, H = 0.5 μm; I – K = 1 μm." figureDoi="http://doi.org/10.5281/zenodo.10376075" httpUri="https://zenodo.org/record/10376075/files/figure.png" pageId="5" pageNumber="16">Fig. 4B</figureCitation>
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). Thin fibres of circular muscles are embedded in the surrounding extracellular matrix (
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<figureCitation id="135896FCF333FFC9FD59D29DFF73C333" captionStart="Fig" captionStartId="6.[100,130,1695,1712]" captionTargetBox="[207,1380,149,1666]" captionTargetId="figure-8@6.[206,1381,148,1667]" captionTargetPageId="6" captionText="Fig. 4. Ultrastructure of the caecum of Aporocotyle simplex (A) Cross section through caecal portion showing relatively homogeneous and non-cellular content of the caecal lumen, note large dense inclusions and variable residual bodies; insert Type of residual body (B) Area of caecum showing different thickness of cytoplasmic lining, note nucleus, surface lamellae (C) Large residual body in the gastrodermal cytoplasm, note deep basal invaginations (D) Residual body occupying most of the thickness of the gastrodermal cytoplasm, note moderately dense body content and clumps of inclusions of different shapes (E) Tubular structure in the gastrodermal cytoplasm (F) Residual body, note Golgi vesicles within and in contact with it (G) Multivesiculate body and Golgi vesicles (H) Portion of syncytial gastrodermal cytoplasm showing developed stages of large residual bodies, insert Granular endoplasmic reticulum and Golgi vesicles (I, J) Gastrodermal vacuolated surface areas in a secretory-absorptive phase, note surface depressions and an agglomeration of residual material between lamellae (K) Portion of gastrodermal cytoplasm filled with different kinds of vesicles and residual bodies during secretory-absorptive phase. Abbreviations: arm, agglomeration of residual material; bi, basal infoldings; cl, caecal lumen; di, dense inclusion; dlb1, dlb2, developed residual bodies; dm, dense material; gc, gastrodermal syncytial cytoplasm; ger, granular endoplasmic reticulum; gv, Golgi vesicles; hm, haematin; lb, large residual body; mb, multivesiculate body; nb, nascent residual body; sl, surface lamellae; sd, surface depression; rb, residual body; other abbreviations in Figs. 1–3. Scale bars: A = 50 μm; inserts, E, F = 0.2 μm; B, С = 2 μm; D, G, H = 0.5 μm; I – K = 1 μm." figureDoi="http://doi.org/10.5281/zenodo.10376075" httpUri="https://zenodo.org/record/10376075/files/figure.png" pageId="5" pageNumber="16">Fig. 4C and D</figureCitation>
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). The syncytial cytoplasm contains elongated oval or irregularly shaped nuclei with dense patches of heterochromatin, which usually occupy the central or basal positions within the epithelial lining (
|
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<figureCitation id="135896FCF333FFC9FD26D341FF70C34F" captionStart="Fig" captionStartId="6.[100,130,1695,1712]" captionTargetBox="[207,1380,149,1666]" captionTargetId="figure-8@6.[206,1381,148,1667]" captionTargetPageId="6" captionText="Fig. 4. Ultrastructure of the caecum of Aporocotyle simplex (A) Cross section through caecal portion showing relatively homogeneous and non-cellular content of the caecal lumen, note large dense inclusions and variable residual bodies; insert Type of residual body (B) Area of caecum showing different thickness of cytoplasmic lining, note nucleus, surface lamellae (C) Large residual body in the gastrodermal cytoplasm, note deep basal invaginations (D) Residual body occupying most of the thickness of the gastrodermal cytoplasm, note moderately dense body content and clumps of inclusions of different shapes (E) Tubular structure in the gastrodermal cytoplasm (F) Residual body, note Golgi vesicles within and in contact with it (G) Multivesiculate body and Golgi vesicles (H) Portion of syncytial gastrodermal cytoplasm showing developed stages of large residual bodies, insert Granular endoplasmic reticulum and Golgi vesicles (I, J) Gastrodermal vacuolated surface areas in a secretory-absorptive phase, note surface depressions and an agglomeration of residual material between lamellae (K) Portion of gastrodermal cytoplasm filled with different kinds of vesicles and residual bodies during secretory-absorptive phase. Abbreviations: arm, agglomeration of residual material; bi, basal infoldings; cl, caecal lumen; di, dense inclusion; dlb1, dlb2, developed residual bodies; dm, dense material; gc, gastrodermal syncytial cytoplasm; ger, granular endoplasmic reticulum; gv, Golgi vesicles; hm, haematin; lb, large residual body; mb, multivesiculate body; nb, nascent residual body; sl, surface lamellae; sd, surface depression; rb, residual body; other abbreviations in Figs. 1–3. Scale bars: A = 50 μm; inserts, E, F = 0.2 μm; B, С = 2 μm; D, G, H = 0.5 μm; I – K = 1 μm." figureDoi="http://doi.org/10.5281/zenodo.10376075" httpUri="https://zenodo.org/record/10376075/files/figure.png" pageId="5" pageNumber="16">Fig. 4A and B</figureCitation>
|
||
). The dense cytoplasmic matrix of the gastrodermis contains cisternae of granular endoplasmic reticulum, which are usually located in the proximity of the nuclear areas (
|
||
<figureCitation id="135896FCF333FFC9FE2DD3F5FD9DC387" box="[459,591,1935,1954]" captionStart="Fig" captionStartId="6.[100,130,1695,1712]" captionTargetBox="[207,1380,149,1666]" captionTargetId="figure-8@6.[206,1381,148,1667]" captionTargetPageId="6" captionText="Fig. 4. Ultrastructure of the caecum of Aporocotyle simplex (A) Cross section through caecal portion showing relatively homogeneous and non-cellular content of the caecal lumen, note large dense inclusions and variable residual bodies; insert Type of residual body (B) Area of caecum showing different thickness of cytoplasmic lining, note nucleus, surface lamellae (C) Large residual body in the gastrodermal cytoplasm, note deep basal invaginations (D) Residual body occupying most of the thickness of the gastrodermal cytoplasm, note moderately dense body content and clumps of inclusions of different shapes (E) Tubular structure in the gastrodermal cytoplasm (F) Residual body, note Golgi vesicles within and in contact with it (G) Multivesiculate body and Golgi vesicles (H) Portion of syncytial gastrodermal cytoplasm showing developed stages of large residual bodies, insert Granular endoplasmic reticulum and Golgi vesicles (I, J) Gastrodermal vacuolated surface areas in a secretory-absorptive phase, note surface depressions and an agglomeration of residual material between lamellae (K) Portion of gastrodermal cytoplasm filled with different kinds of vesicles and residual bodies during secretory-absorptive phase. Abbreviations: arm, agglomeration of residual material; bi, basal infoldings; cl, caecal lumen; di, dense inclusion; dlb1, dlb2, developed residual bodies; dm, dense material; gc, gastrodermal syncytial cytoplasm; ger, granular endoplasmic reticulum; gv, Golgi vesicles; hm, haematin; lb, large residual body; mb, multivesiculate body; nb, nascent residual body; sl, surface lamellae; sd, surface depression; rb, residual body; other abbreviations in Figs. 1–3. Scale bars: A = 50 μm; inserts, E, F = 0.2 μm; B, С = 2 μm; D, G, H = 0.5 μm; I – K = 1 μm." figureDoi="http://doi.org/10.5281/zenodo.10376075" httpUri="https://zenodo.org/record/10376075/files/figure.png" pageId="5" pageNumber="16">Fig. 4B and H</figureCitation>
|
||
). Golgi bodies give rise to ovoid membrane-bound rounded vesicles ranging from 0.1 to 0.3 μm in diameter, which may occur throughout the syncytial layer (
|
||
<figureCitation id="135896FCF333FFC9FCDCD4CAFC6EC4E6" box="[826,956,176,195]" captionStart="Fig" captionStartId="6.[100,130,1695,1712]" captionTargetBox="[207,1380,149,1666]" captionTargetId="figure-8@6.[206,1381,148,1667]" captionTargetPageId="6" captionText="Fig. 4. Ultrastructure of the caecum of Aporocotyle simplex (A) Cross section through caecal portion showing relatively homogeneous and non-cellular content of the caecal lumen, note large dense inclusions and variable residual bodies; insert Type of residual body (B) Area of caecum showing different thickness of cytoplasmic lining, note nucleus, surface lamellae (C) Large residual body in the gastrodermal cytoplasm, note deep basal invaginations (D) Residual body occupying most of the thickness of the gastrodermal cytoplasm, note moderately dense body content and clumps of inclusions of different shapes (E) Tubular structure in the gastrodermal cytoplasm (F) Residual body, note Golgi vesicles within and in contact with it (G) Multivesiculate body and Golgi vesicles (H) Portion of syncytial gastrodermal cytoplasm showing developed stages of large residual bodies, insert Granular endoplasmic reticulum and Golgi vesicles (I, J) Gastrodermal vacuolated surface areas in a secretory-absorptive phase, note surface depressions and an agglomeration of residual material between lamellae (K) Portion of gastrodermal cytoplasm filled with different kinds of vesicles and residual bodies during secretory-absorptive phase. Abbreviations: arm, agglomeration of residual material; bi, basal infoldings; cl, caecal lumen; di, dense inclusion; dlb1, dlb2, developed residual bodies; dm, dense material; gc, gastrodermal syncytial cytoplasm; ger, granular endoplasmic reticulum; gv, Golgi vesicles; hm, haematin; lb, large residual body; mb, multivesiculate body; nb, nascent residual body; sl, surface lamellae; sd, surface depression; rb, residual body; other abbreviations in Figs. 1–3. Scale bars: A = 50 μm; inserts, E, F = 0.2 μm; B, С = 2 μm; D, G, H = 0.5 μm; I – K = 1 μm." figureDoi="http://doi.org/10.5281/zenodo.10376075" httpUri="https://zenodo.org/record/10376075/files/figure.png" pageId="5" pageNumber="16">Fig. 4B, G, H</figureCitation>
|
||
, insert, K). These vesicles contain an agglomeration of finely dispersed, flocculent and moderately dense material (
|
||
<figureCitation id="135896FCF333FFC9FA85D4B1FC90C4DE" captionStart="Fig" captionStartId="6.[100,130,1695,1712]" captionTargetBox="[207,1380,149,1666]" captionTargetId="figure-8@6.[206,1381,148,1667]" captionTargetPageId="6" captionText="Fig. 4. Ultrastructure of the caecum of Aporocotyle simplex (A) Cross section through caecal portion showing relatively homogeneous and non-cellular content of the caecal lumen, note large dense inclusions and variable residual bodies; insert Type of residual body (B) Area of caecum showing different thickness of cytoplasmic lining, note nucleus, surface lamellae (C) Large residual body in the gastrodermal cytoplasm, note deep basal invaginations (D) Residual body occupying most of the thickness of the gastrodermal cytoplasm, note moderately dense body content and clumps of inclusions of different shapes (E) Tubular structure in the gastrodermal cytoplasm (F) Residual body, note Golgi vesicles within and in contact with it (G) Multivesiculate body and Golgi vesicles (H) Portion of syncytial gastrodermal cytoplasm showing developed stages of large residual bodies, insert Granular endoplasmic reticulum and Golgi vesicles (I, J) Gastrodermal vacuolated surface areas in a secretory-absorptive phase, note surface depressions and an agglomeration of residual material between lamellae (K) Portion of gastrodermal cytoplasm filled with different kinds of vesicles and residual bodies during secretory-absorptive phase. Abbreviations: arm, agglomeration of residual material; bi, basal infoldings; cl, caecal lumen; di, dense inclusion; dlb1, dlb2, developed residual bodies; dm, dense material; gc, gastrodermal syncytial cytoplasm; ger, granular endoplasmic reticulum; gv, Golgi vesicles; hm, haematin; lb, large residual body; mb, multivesiculate body; nb, nascent residual body; sl, surface lamellae; sd, surface depression; rb, residual body; other abbreviations in Figs. 1–3. Scale bars: A = 50 μm; inserts, E, F = 0.2 μm; B, С = 2 μm; D, G, H = 0.5 μm; I – K = 1 μm." figureDoi="http://doi.org/10.5281/zenodo.10376075" httpUri="https://zenodo.org/record/10376075/files/figure.png" pageId="5" pageNumber="16">Fig. 4G and H</figureCitation>
|
||
insert, I). Regularly arranged tubular arrays are scattered throughout the gastrodermal syncytial lining (
|
||
<figureCitation id="135896FCF333FFC9FB9AD579FAD9C533" box="[1148,1291,259,279]" captionStart="Fig" captionStartId="6.[100,130,1695,1712]" captionTargetBox="[207,1380,149,1666]" captionTargetId="figure-8@6.[206,1381,148,1667]" captionTargetPageId="6" captionText="Fig. 4. Ultrastructure of the caecum of Aporocotyle simplex (A) Cross section through caecal portion showing relatively homogeneous and non-cellular content of the caecal lumen, note large dense inclusions and variable residual bodies; insert Type of residual body (B) Area of caecum showing different thickness of cytoplasmic lining, note nucleus, surface lamellae (C) Large residual body in the gastrodermal cytoplasm, note deep basal invaginations (D) Residual body occupying most of the thickness of the gastrodermal cytoplasm, note moderately dense body content and clumps of inclusions of different shapes (E) Tubular structure in the gastrodermal cytoplasm (F) Residual body, note Golgi vesicles within and in contact with it (G) Multivesiculate body and Golgi vesicles (H) Portion of syncytial gastrodermal cytoplasm showing developed stages of large residual bodies, insert Granular endoplasmic reticulum and Golgi vesicles (I, J) Gastrodermal vacuolated surface areas in a secretory-absorptive phase, note surface depressions and an agglomeration of residual material between lamellae (K) Portion of gastrodermal cytoplasm filled with different kinds of vesicles and residual bodies during secretory-absorptive phase. Abbreviations: arm, agglomeration of residual material; bi, basal infoldings; cl, caecal lumen; di, dense inclusion; dlb1, dlb2, developed residual bodies; dm, dense material; gc, gastrodermal syncytial cytoplasm; ger, granular endoplasmic reticulum; gv, Golgi vesicles; hm, haematin; lb, large residual body; mb, multivesiculate body; nb, nascent residual body; sl, surface lamellae; sd, surface depression; rb, residual body; other abbreviations in Figs. 1–3. Scale bars: A = 50 μm; inserts, E, F = 0.2 μm; B, С = 2 μm; D, G, H = 0.5 μm; I – K = 1 μm." figureDoi="http://doi.org/10.5281/zenodo.10376075" httpUri="https://zenodo.org/record/10376075/files/figure.png" pageId="5" pageNumber="16">Fig. 4E, H, I, J</figureCitation>
|
||
). Occasionally, multivesiculate bodies (about 0.4 μm in diameter) are dispersed in the upper portion of the syncytial cytoplasm (
|
||
<figureCitation id="135896FCF333FFC9FB67D541FB1BC56B" box="[1153,1225,315,334]" captionStart="Fig" captionStartId="6.[100,130,1695,1712]" captionTargetBox="[207,1380,149,1666]" captionTargetId="figure-8@6.[206,1381,148,1667]" captionTargetPageId="6" captionText="Fig. 4. Ultrastructure of the caecum of Aporocotyle simplex (A) Cross section through caecal portion showing relatively homogeneous and non-cellular content of the caecal lumen, note large dense inclusions and variable residual bodies; insert Type of residual body (B) Area of caecum showing different thickness of cytoplasmic lining, note nucleus, surface lamellae (C) Large residual body in the gastrodermal cytoplasm, note deep basal invaginations (D) Residual body occupying most of the thickness of the gastrodermal cytoplasm, note moderately dense body content and clumps of inclusions of different shapes (E) Tubular structure in the gastrodermal cytoplasm (F) Residual body, note Golgi vesicles within and in contact with it (G) Multivesiculate body and Golgi vesicles (H) Portion of syncytial gastrodermal cytoplasm showing developed stages of large residual bodies, insert Granular endoplasmic reticulum and Golgi vesicles (I, J) Gastrodermal vacuolated surface areas in a secretory-absorptive phase, note surface depressions and an agglomeration of residual material between lamellae (K) Portion of gastrodermal cytoplasm filled with different kinds of vesicles and residual bodies during secretory-absorptive phase. Abbreviations: arm, agglomeration of residual material; bi, basal infoldings; cl, caecal lumen; di, dense inclusion; dlb1, dlb2, developed residual bodies; dm, dense material; gc, gastrodermal syncytial cytoplasm; ger, granular endoplasmic reticulum; gv, Golgi vesicles; hm, haematin; lb, large residual body; mb, multivesiculate body; nb, nascent residual body; sl, surface lamellae; sd, surface depression; rb, residual body; other abbreviations in Figs. 1–3. Scale bars: A = 50 μm; inserts, E, F = 0.2 μm; B, С = 2 μm; D, G, H = 0.5 μm; I – K = 1 μm." figureDoi="http://doi.org/10.5281/zenodo.10376075" httpUri="https://zenodo.org/record/10376075/files/figure.png" pageId="5" pageNumber="16">Fig. 4G</figureCitation>
|
||
). Different kinds of residual bodies are scattered throughout the cytoplasm (
|
||
<figureCitation id="135896FCF333FFC9FAE7D52DFA11C54F" box="[1281,1475,343,362]" captionStart="Fig" captionStartId="6.[100,130,1695,1712]" captionTargetBox="[207,1380,149,1666]" captionTargetId="figure-8@6.[206,1381,148,1667]" captionTargetPageId="6" captionText="Fig. 4. Ultrastructure of the caecum of Aporocotyle simplex (A) Cross section through caecal portion showing relatively homogeneous and non-cellular content of the caecal lumen, note large dense inclusions and variable residual bodies; insert Type of residual body (B) Area of caecum showing different thickness of cytoplasmic lining, note nucleus, surface lamellae (C) Large residual body in the gastrodermal cytoplasm, note deep basal invaginations (D) Residual body occupying most of the thickness of the gastrodermal cytoplasm, note moderately dense body content and clumps of inclusions of different shapes (E) Tubular structure in the gastrodermal cytoplasm (F) Residual body, note Golgi vesicles within and in contact with it (G) Multivesiculate body and Golgi vesicles (H) Portion of syncytial gastrodermal cytoplasm showing developed stages of large residual bodies, insert Granular endoplasmic reticulum and Golgi vesicles (I, J) Gastrodermal vacuolated surface areas in a secretory-absorptive phase, note surface depressions and an agglomeration of residual material between lamellae (K) Portion of gastrodermal cytoplasm filled with different kinds of vesicles and residual bodies during secretory-absorptive phase. Abbreviations: arm, agglomeration of residual material; bi, basal infoldings; cl, caecal lumen; di, dense inclusion; dlb1, dlb2, developed residual bodies; dm, dense material; gc, gastrodermal syncytial cytoplasm; ger, granular endoplasmic reticulum; gv, Golgi vesicles; hm, haematin; lb, large residual body; mb, multivesiculate body; nb, nascent residual body; sl, surface lamellae; sd, surface depression; rb, residual body; other abbreviations in Figs. 1–3. Scale bars: A = 50 μm; inserts, E, F = 0.2 μm; B, С = 2 μm; D, G, H = 0.5 μm; I – K = 1 μm." figureDoi="http://doi.org/10.5281/zenodo.10376075" httpUri="https://zenodo.org/record/10376075/files/figure.png" pageId="5" pageNumber="16">Fig. 4C D, F, H, I, J</figureCitation>
|
||
). Some bodies show a combination of alternate electron-dense glandular and moderately dense finely dispersed material (
|
||
<figureCitation id="135896FCF333FFC9FAEED5F5FA45C587" box="[1288,1431,399,418]" captionStart="Fig" captionStartId="6.[100,130,1695,1712]" captionTargetBox="[207,1380,149,1666]" captionTargetId="figure-8@6.[206,1381,148,1667]" captionTargetPageId="6" captionText="Fig. 4. Ultrastructure of the caecum of Aporocotyle simplex (A) Cross section through caecal portion showing relatively homogeneous and non-cellular content of the caecal lumen, note large dense inclusions and variable residual bodies; insert Type of residual body (B) Area of caecum showing different thickness of cytoplasmic lining, note nucleus, surface lamellae (C) Large residual body in the gastrodermal cytoplasm, note deep basal invaginations (D) Residual body occupying most of the thickness of the gastrodermal cytoplasm, note moderately dense body content and clumps of inclusions of different shapes (E) Tubular structure in the gastrodermal cytoplasm (F) Residual body, note Golgi vesicles within and in contact with it (G) Multivesiculate body and Golgi vesicles (H) Portion of syncytial gastrodermal cytoplasm showing developed stages of large residual bodies, insert Granular endoplasmic reticulum and Golgi vesicles (I, J) Gastrodermal vacuolated surface areas in a secretory-absorptive phase, note surface depressions and an agglomeration of residual material between lamellae (K) Portion of gastrodermal cytoplasm filled with different kinds of vesicles and residual bodies during secretory-absorptive phase. Abbreviations: arm, agglomeration of residual material; bi, basal infoldings; cl, caecal lumen; di, dense inclusion; dlb1, dlb2, developed residual bodies; dm, dense material; gc, gastrodermal syncytial cytoplasm; ger, granular endoplasmic reticulum; gv, Golgi vesicles; hm, haematin; lb, large residual body; mb, multivesiculate body; nb, nascent residual body; sl, surface lamellae; sd, surface depression; rb, residual body; other abbreviations in Figs. 1–3. Scale bars: A = 50 μm; inserts, E, F = 0.2 μm; B, С = 2 μm; D, G, H = 0.5 μm; I – K = 1 μm." figureDoi="http://doi.org/10.5281/zenodo.10376075" httpUri="https://zenodo.org/record/10376075/files/figure.png" pageId="5" pageNumber="16">Fig. 4F, H, I, J</figureCitation>
|
||
). The membrane-bound Golgi vesicles appear to fuse with residual bodies (
|
||
<figureCitation id="135896FCF333FFC9FCDCD5BDFC7DC5FF" box="[826,943,455,474]" captionStart="Fig" captionStartId="6.[100,130,1695,1712]" captionTargetBox="[207,1380,149,1666]" captionTargetId="figure-8@6.[206,1381,148,1667]" captionTargetPageId="6" captionText="Fig. 4. Ultrastructure of the caecum of Aporocotyle simplex (A) Cross section through caecal portion showing relatively homogeneous and non-cellular content of the caecal lumen, note large dense inclusions and variable residual bodies; insert Type of residual body (B) Area of caecum showing different thickness of cytoplasmic lining, note nucleus, surface lamellae (C) Large residual body in the gastrodermal cytoplasm, note deep basal invaginations (D) Residual body occupying most of the thickness of the gastrodermal cytoplasm, note moderately dense body content and clumps of inclusions of different shapes (E) Tubular structure in the gastrodermal cytoplasm (F) Residual body, note Golgi vesicles within and in contact with it (G) Multivesiculate body and Golgi vesicles (H) Portion of syncytial gastrodermal cytoplasm showing developed stages of large residual bodies, insert Granular endoplasmic reticulum and Golgi vesicles (I, J) Gastrodermal vacuolated surface areas in a secretory-absorptive phase, note surface depressions and an agglomeration of residual material between lamellae (K) Portion of gastrodermal cytoplasm filled with different kinds of vesicles and residual bodies during secretory-absorptive phase. Abbreviations: arm, agglomeration of residual material; bi, basal infoldings; cl, caecal lumen; di, dense inclusion; dlb1, dlb2, developed residual bodies; dm, dense material; gc, gastrodermal syncytial cytoplasm; ger, granular endoplasmic reticulum; gv, Golgi vesicles; hm, haematin; lb, large residual body; mb, multivesiculate body; nb, nascent residual body; sl, surface lamellae; sd, surface depression; rb, residual body; other abbreviations in Figs. 1–3. Scale bars: A = 50 μm; inserts, E, F = 0.2 μm; B, С = 2 μm; D, G, H = 0.5 μm; I – K = 1 μm." figureDoi="http://doi.org/10.5281/zenodo.10376075" httpUri="https://zenodo.org/record/10376075/files/figure.png" pageId="5" pageNumber="16">Fig. 4F and I</figureCitation>
|
||
). Occasionally, there are large residual bodies (from 2.0 to 2.6 μm in diameter) containing heterogeneous, flocculent and moderately dense material, within which are scattered clumps of electron dense material (
|
||
<figureCitation id="135896FCF333FFC9FC21D660FB95C608" box="[967,1095,538,557]" captionStart="Fig" captionStartId="6.[100,130,1695,1712]" captionTargetBox="[207,1380,149,1666]" captionTargetId="figure-8@6.[206,1381,148,1667]" captionTargetPageId="6" captionText="Fig. 4. Ultrastructure of the caecum of Aporocotyle simplex (A) Cross section through caecal portion showing relatively homogeneous and non-cellular content of the caecal lumen, note large dense inclusions and variable residual bodies; insert Type of residual body (B) Area of caecum showing different thickness of cytoplasmic lining, note nucleus, surface lamellae (C) Large residual body in the gastrodermal cytoplasm, note deep basal invaginations (D) Residual body occupying most of the thickness of the gastrodermal cytoplasm, note moderately dense body content and clumps of inclusions of different shapes (E) Tubular structure in the gastrodermal cytoplasm (F) Residual body, note Golgi vesicles within and in contact with it (G) Multivesiculate body and Golgi vesicles (H) Portion of syncytial gastrodermal cytoplasm showing developed stages of large residual bodies, insert Granular endoplasmic reticulum and Golgi vesicles (I, J) Gastrodermal vacuolated surface areas in a secretory-absorptive phase, note surface depressions and an agglomeration of residual material between lamellae (K) Portion of gastrodermal cytoplasm filled with different kinds of vesicles and residual bodies during secretory-absorptive phase. Abbreviations: arm, agglomeration of residual material; bi, basal infoldings; cl, caecal lumen; di, dense inclusion; dlb1, dlb2, developed residual bodies; dm, dense material; gc, gastrodermal syncytial cytoplasm; ger, granular endoplasmic reticulum; gv, Golgi vesicles; hm, haematin; lb, large residual body; mb, multivesiculate body; nb, nascent residual body; sl, surface lamellae; sd, surface depression; rb, residual body; other abbreviations in Figs. 1–3. Scale bars: A = 50 μm; inserts, E, F = 0.2 μm; B, С = 2 μm; D, G, H = 0.5 μm; I – K = 1 μm." figureDoi="http://doi.org/10.5281/zenodo.10376075" httpUri="https://zenodo.org/record/10376075/files/figure.png" pageId="5" pageNumber="16">Fig. 4C and D</figureCitation>
|
||
). In
|
||
<figureCitation id="135896FCF333FFC9FB8BD660FB62C60B" box="[1133,1200,538,558]" captionStart="Fig" captionStartId="6.[100,130,1695,1712]" captionTargetBox="[207,1380,149,1666]" captionTargetId="figure-8@6.[206,1381,148,1667]" captionTargetPageId="6" captionText="Fig. 4. Ultrastructure of the caecum of Aporocotyle simplex (A) Cross section through caecal portion showing relatively homogeneous and non-cellular content of the caecal lumen, note large dense inclusions and variable residual bodies; insert Type of residual body (B) Area of caecum showing different thickness of cytoplasmic lining, note nucleus, surface lamellae (C) Large residual body in the gastrodermal cytoplasm, note deep basal invaginations (D) Residual body occupying most of the thickness of the gastrodermal cytoplasm, note moderately dense body content and clumps of inclusions of different shapes (E) Tubular structure in the gastrodermal cytoplasm (F) Residual body, note Golgi vesicles within and in contact with it (G) Multivesiculate body and Golgi vesicles (H) Portion of syncytial gastrodermal cytoplasm showing developed stages of large residual bodies, insert Granular endoplasmic reticulum and Golgi vesicles (I, J) Gastrodermal vacuolated surface areas in a secretory-absorptive phase, note surface depressions and an agglomeration of residual material between lamellae (K) Portion of gastrodermal cytoplasm filled with different kinds of vesicles and residual bodies during secretory-absorptive phase. Abbreviations: arm, agglomeration of residual material; bi, basal infoldings; cl, caecal lumen; di, dense inclusion; dlb1, dlb2, developed residual bodies; dm, dense material; gc, gastrodermal syncytial cytoplasm; ger, granular endoplasmic reticulum; gv, Golgi vesicles; hm, haematin; lb, large residual body; mb, multivesiculate body; nb, nascent residual body; sl, surface lamellae; sd, surface depression; rb, residual body; other abbreviations in Figs. 1–3. Scale bars: A = 50 μm; inserts, E, F = 0.2 μm; B, С = 2 μm; D, G, H = 0.5 μm; I – K = 1 μm." figureDoi="http://doi.org/10.5281/zenodo.10376075" httpUri="https://zenodo.org/record/10376075/files/figure.png" pageId="5" pageNumber="16">Fig. 4H</figureCitation>
|
||
three stages of development of such bodies may be observed in the gastrodermal cytoplasm. The nascent body (
|
||
<emphasis id="B917566BF333FFC9FC59D628FC07C640" bold="true" box="[959,981,594,613]" italics="true" pageId="5" pageNumber="16">nb</emphasis>
|
||
) is about 0.4 μm in diameter containing moderately dense flocculent, loosely packed material with a few pinpoint clumps of dense material and, a short way off it, the network of tubular structures and Golgi vesicles (
|
||
<figureCitation id="135896FCF333FFC9FC14D6DCFBECC69C" box="[1010,1086,678,697]" captionStart="Fig" captionStartId="6.[100,130,1695,1712]" captionTargetBox="[207,1380,149,1666]" captionTargetId="figure-8@6.[206,1381,148,1667]" captionTargetPageId="6" captionText="Fig. 4. Ultrastructure of the caecum of Aporocotyle simplex (A) Cross section through caecal portion showing relatively homogeneous and non-cellular content of the caecal lumen, note large dense inclusions and variable residual bodies; insert Type of residual body (B) Area of caecum showing different thickness of cytoplasmic lining, note nucleus, surface lamellae (C) Large residual body in the gastrodermal cytoplasm, note deep basal invaginations (D) Residual body occupying most of the thickness of the gastrodermal cytoplasm, note moderately dense body content and clumps of inclusions of different shapes (E) Tubular structure in the gastrodermal cytoplasm (F) Residual body, note Golgi vesicles within and in contact with it (G) Multivesiculate body and Golgi vesicles (H) Portion of syncytial gastrodermal cytoplasm showing developed stages of large residual bodies, insert Granular endoplasmic reticulum and Golgi vesicles (I, J) Gastrodermal vacuolated surface areas in a secretory-absorptive phase, note surface depressions and an agglomeration of residual material between lamellae (K) Portion of gastrodermal cytoplasm filled with different kinds of vesicles and residual bodies during secretory-absorptive phase. Abbreviations: arm, agglomeration of residual material; bi, basal infoldings; cl, caecal lumen; di, dense inclusion; dlb1, dlb2, developed residual bodies; dm, dense material; gc, gastrodermal syncytial cytoplasm; ger, granular endoplasmic reticulum; gv, Golgi vesicles; hm, haematin; lb, large residual body; mb, multivesiculate body; nb, nascent residual body; sl, surface lamellae; sd, surface depression; rb, residual body; other abbreviations in Figs. 1–3. Scale bars: A = 50 μm; inserts, E, F = 0.2 μm; B, С = 2 μm; D, G, H = 0.5 μm; I – K = 1 μm." figureDoi="http://doi.org/10.5281/zenodo.10376075" httpUri="https://zenodo.org/record/10376075/files/figure.png" pageId="5" pageNumber="16">Fig. 4H</figureCitation>
|
||
). As such bodies develop, their diameter begins to increase from 0.9 μm (
|
||
<emphasis id="B917566BF333FFC9FBBCD6BBFB53C6F1" bold="true" box="[1114,1153,705,724]" italics="true" pageId="5" pageNumber="16">dlb1</emphasis>
|
||
) to 1.5 μm (
|
||
<emphasis id="B917566BF333FFC9FB14D6BBFAC8C6F1" bold="true" box="[1266,1306,705,724]" italics="true" pageId="5" pageNumber="16">dlb2</emphasis>
|
||
) and the amount of both flocculent moderately dense and clumpy dense material increases (
|
||
<figureCitation id="135896FCF333FFC9FCDCD683FC50C729" box="[826,898,761,780]" captionStart="Fig" captionStartId="6.[100,130,1695,1712]" captionTargetBox="[207,1380,149,1666]" captionTargetId="figure-8@6.[206,1381,148,1667]" captionTargetPageId="6" captionText="Fig. 4. Ultrastructure of the caecum of Aporocotyle simplex (A) Cross section through caecal portion showing relatively homogeneous and non-cellular content of the caecal lumen, note large dense inclusions and variable residual bodies; insert Type of residual body (B) Area of caecum showing different thickness of cytoplasmic lining, note nucleus, surface lamellae (C) Large residual body in the gastrodermal cytoplasm, note deep basal invaginations (D) Residual body occupying most of the thickness of the gastrodermal cytoplasm, note moderately dense body content and clumps of inclusions of different shapes (E) Tubular structure in the gastrodermal cytoplasm (F) Residual body, note Golgi vesicles within and in contact with it (G) Multivesiculate body and Golgi vesicles (H) Portion of syncytial gastrodermal cytoplasm showing developed stages of large residual bodies, insert Granular endoplasmic reticulum and Golgi vesicles (I, J) Gastrodermal vacuolated surface areas in a secretory-absorptive phase, note surface depressions and an agglomeration of residual material between lamellae (K) Portion of gastrodermal cytoplasm filled with different kinds of vesicles and residual bodies during secretory-absorptive phase. Abbreviations: arm, agglomeration of residual material; bi, basal infoldings; cl, caecal lumen; di, dense inclusion; dlb1, dlb2, developed residual bodies; dm, dense material; gc, gastrodermal syncytial cytoplasm; ger, granular endoplasmic reticulum; gv, Golgi vesicles; hm, haematin; lb, large residual body; mb, multivesiculate body; nb, nascent residual body; sl, surface lamellae; sd, surface depression; rb, residual body; other abbreviations in Figs. 1–3. Scale bars: A = 50 μm; inserts, E, F = 0.2 μm; B, С = 2 μm; D, G, H = 0.5 μm; I – K = 1 μm." figureDoi="http://doi.org/10.5281/zenodo.10376075" httpUri="https://zenodo.org/record/10376075/files/figure.png" pageId="5" pageNumber="16">Fig. 4H</figureCitation>
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). In the worms studied, along the entire length of the caecum there are areas in a secretory-absorptive phase possessing a highly vacuolated luminal surface, where the lamellae may be of various configurations and appear to be recurved to form loops (
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<figureCitation id="135896FCF333FFC9FAD0D737FA7AC745" box="[1334,1448,845,864]" captionStart="Fig" captionStartId="6.[100,130,1695,1712]" captionTargetBox="[207,1380,149,1666]" captionTargetId="figure-8@6.[206,1381,148,1667]" captionTargetPageId="6" captionText="Fig. 4. Ultrastructure of the caecum of Aporocotyle simplex (A) Cross section through caecal portion showing relatively homogeneous and non-cellular content of the caecal lumen, note large dense inclusions and variable residual bodies; insert Type of residual body (B) Area of caecum showing different thickness of cytoplasmic lining, note nucleus, surface lamellae (C) Large residual body in the gastrodermal cytoplasm, note deep basal invaginations (D) Residual body occupying most of the thickness of the gastrodermal cytoplasm, note moderately dense body content and clumps of inclusions of different shapes (E) Tubular structure in the gastrodermal cytoplasm (F) Residual body, note Golgi vesicles within and in contact with it (G) Multivesiculate body and Golgi vesicles (H) Portion of syncytial gastrodermal cytoplasm showing developed stages of large residual bodies, insert Granular endoplasmic reticulum and Golgi vesicles (I, J) Gastrodermal vacuolated surface areas in a secretory-absorptive phase, note surface depressions and an agglomeration of residual material between lamellae (K) Portion of gastrodermal cytoplasm filled with different kinds of vesicles and residual bodies during secretory-absorptive phase. Abbreviations: arm, agglomeration of residual material; bi, basal infoldings; cl, caecal lumen; di, dense inclusion; dlb1, dlb2, developed residual bodies; dm, dense material; gc, gastrodermal syncytial cytoplasm; ger, granular endoplasmic reticulum; gv, Golgi vesicles; hm, haematin; lb, large residual body; mb, multivesiculate body; nb, nascent residual body; sl, surface lamellae; sd, surface depression; rb, residual body; other abbreviations in Figs. 1–3. Scale bars: A = 50 μm; inserts, E, F = 0.2 μm; B, С = 2 μm; D, G, H = 0.5 μm; I – K = 1 μm." figureDoi="http://doi.org/10.5281/zenodo.10376075" httpUri="https://zenodo.org/record/10376075/files/figure.png" pageId="5" pageNumber="16">Fig. 4B, I, J</figureCitation>
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). In such gastrodermal areas the percentage of the granular endoplasmic reticulum and the Golgi complexes increases and the amount of Golgi vesicles begins to increase in the gastrodermal cytoplasm (
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<figureCitation id="135896FCF333FFC9FA84D7DBFC96C7F5" captionStart="Fig" captionStartId="6.[100,130,1695,1712]" captionTargetBox="[207,1380,149,1666]" captionTargetId="figure-8@6.[206,1381,148,1667]" captionTargetPageId="6" captionText="Fig. 4. Ultrastructure of the caecum of Aporocotyle simplex (A) Cross section through caecal portion showing relatively homogeneous and non-cellular content of the caecal lumen, note large dense inclusions and variable residual bodies; insert Type of residual body (B) Area of caecum showing different thickness of cytoplasmic lining, note nucleus, surface lamellae (C) Large residual body in the gastrodermal cytoplasm, note deep basal invaginations (D) Residual body occupying most of the thickness of the gastrodermal cytoplasm, note moderately dense body content and clumps of inclusions of different shapes (E) Tubular structure in the gastrodermal cytoplasm (F) Residual body, note Golgi vesicles within and in contact with it (G) Multivesiculate body and Golgi vesicles (H) Portion of syncytial gastrodermal cytoplasm showing developed stages of large residual bodies, insert Granular endoplasmic reticulum and Golgi vesicles (I, J) Gastrodermal vacuolated surface areas in a secretory-absorptive phase, note surface depressions and an agglomeration of residual material between lamellae (K) Portion of gastrodermal cytoplasm filled with different kinds of vesicles and residual bodies during secretory-absorptive phase. Abbreviations: arm, agglomeration of residual material; bi, basal infoldings; cl, caecal lumen; di, dense inclusion; dlb1, dlb2, developed residual bodies; dm, dense material; gc, gastrodermal syncytial cytoplasm; ger, granular endoplasmic reticulum; gv, Golgi vesicles; hm, haematin; lb, large residual body; mb, multivesiculate body; nb, nascent residual body; sl, surface lamellae; sd, surface depression; rb, residual body; other abbreviations in Figs. 1–3. Scale bars: A = 50 μm; inserts, E, F = 0.2 μm; B, С = 2 μm; D, G, H = 0.5 μm; I – K = 1 μm." figureDoi="http://doi.org/10.5281/zenodo.10376075" httpUri="https://zenodo.org/record/10376075/files/figure.png" pageId="5" pageNumber="16">Fig. 4B and K</figureCitation>
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). The numerous vesicular-like surface depressions are filled with trapped material from the gastrodermal lumen, demonstrating the subsequent stages of their endocytosis into the gastrodermis (
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<figureCitation id="135896FCF333FFC9FA88D78EFA14C02D" box="[1390,1478,1012,1032]" captionStart="Fig" captionStartId="6.[100,130,1695,1712]" captionTargetBox="[207,1380,149,1666]" captionTargetId="figure-8@6.[206,1381,148,1667]" captionTargetPageId="6" captionText="Fig. 4. Ultrastructure of the caecum of Aporocotyle simplex (A) Cross section through caecal portion showing relatively homogeneous and non-cellular content of the caecal lumen, note large dense inclusions and variable residual bodies; insert Type of residual body (B) Area of caecum showing different thickness of cytoplasmic lining, note nucleus, surface lamellae (C) Large residual body in the gastrodermal cytoplasm, note deep basal invaginations (D) Residual body occupying most of the thickness of the gastrodermal cytoplasm, note moderately dense body content and clumps of inclusions of different shapes (E) Tubular structure in the gastrodermal cytoplasm (F) Residual body, note Golgi vesicles within and in contact with it (G) Multivesiculate body and Golgi vesicles (H) Portion of syncytial gastrodermal cytoplasm showing developed stages of large residual bodies, insert Granular endoplasmic reticulum and Golgi vesicles (I, J) Gastrodermal vacuolated surface areas in a secretory-absorptive phase, note surface depressions and an agglomeration of residual material between lamellae (K) Portion of gastrodermal cytoplasm filled with different kinds of vesicles and residual bodies during secretory-absorptive phase. Abbreviations: arm, agglomeration of residual material; bi, basal infoldings; cl, caecal lumen; di, dense inclusion; dlb1, dlb2, developed residual bodies; dm, dense material; gc, gastrodermal syncytial cytoplasm; ger, granular endoplasmic reticulum; gv, Golgi vesicles; hm, haematin; lb, large residual body; mb, multivesiculate body; nb, nascent residual body; sl, surface lamellae; sd, surface depression; rb, residual body; other abbreviations in Figs. 1–3. Scale bars: A = 50 μm; inserts, E, F = 0.2 μm; B, С = 2 μm; D, G, H = 0.5 μm; I – K = 1 μm." figureDoi="http://doi.org/10.5281/zenodo.10376075" httpUri="https://zenodo.org/record/10376075/files/figure.png" pageId="5" pageNumber="16">Fig. 4I–K</figureCitation>
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). Also, between flattened lamellae an agglomeration of residual material is entrapped (
|
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<figureCitation id="135896FCF333FFC9FC52D056FBFEC01A" box="[948,1068,1068,1088]" captionStart="Fig" captionStartId="6.[100,130,1695,1712]" captionTargetBox="[207,1380,149,1666]" captionTargetId="figure-8@6.[206,1381,148,1667]" captionTargetPageId="6" captionText="Fig. 4. Ultrastructure of the caecum of Aporocotyle simplex (A) Cross section through caecal portion showing relatively homogeneous and non-cellular content of the caecal lumen, note large dense inclusions and variable residual bodies; insert Type of residual body (B) Area of caecum showing different thickness of cytoplasmic lining, note nucleus, surface lamellae (C) Large residual body in the gastrodermal cytoplasm, note deep basal invaginations (D) Residual body occupying most of the thickness of the gastrodermal cytoplasm, note moderately dense body content and clumps of inclusions of different shapes (E) Tubular structure in the gastrodermal cytoplasm (F) Residual body, note Golgi vesicles within and in contact with it (G) Multivesiculate body and Golgi vesicles (H) Portion of syncytial gastrodermal cytoplasm showing developed stages of large residual bodies, insert Granular endoplasmic reticulum and Golgi vesicles (I, J) Gastrodermal vacuolated surface areas in a secretory-absorptive phase, note surface depressions and an agglomeration of residual material between lamellae (K) Portion of gastrodermal cytoplasm filled with different kinds of vesicles and residual bodies during secretory-absorptive phase. Abbreviations: arm, agglomeration of residual material; bi, basal infoldings; cl, caecal lumen; di, dense inclusion; dlb1, dlb2, developed residual bodies; dm, dense material; gc, gastrodermal syncytial cytoplasm; ger, granular endoplasmic reticulum; gv, Golgi vesicles; hm, haematin; lb, large residual body; mb, multivesiculate body; nb, nascent residual body; sl, surface lamellae; sd, surface depression; rb, residual body; other abbreviations in Figs. 1–3. Scale bars: A = 50 μm; inserts, E, F = 0.2 μm; B, С = 2 μm; D, G, H = 0.5 μm; I – K = 1 μm." figureDoi="http://doi.org/10.5281/zenodo.10376075" httpUri="https://zenodo.org/record/10376075/files/figure.png" pageId="5" pageNumber="16">Fig. 4I and J</figureCitation>
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).
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</paragraph>
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</subSubSection>
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</treatment>
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</document> |