106,128 research outputs found

    Adventvm Felicem Reverendissimi Serenissimiqve Principis Ac Domini, Domini Mavritii Gvilielmi Postvlati Administratoris Episcopatvs Nvmbvrgensis

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    Schleusingen, Hennebergisches Gymnasium, Schulprogramm, 1701Autopsie nach Ex. der ULB Sachsen-AnhaltVorlageform des Kolophon: Excud. G. W. Goebel, Ill. Gymn. Schleusingensis Typographus

    Aspects of prokaryotic genome research

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    Gottschalk G, Goebel W, Pühler A. Aspects of prokaryotic genome research. JOURNAL OF BIOTECHNOLOGY. 2006;126(1):1-2

    Eustra plagiata Schmidt-Goebel 1846

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    <i>Eustra plagiata</i> Schmidt-Goebel, 1846 <p>DIAGNOSE</p> <p>Édéage sensiblement comme celui des espèces précédentes ou à peine plus allongé, le paramère gauche particulièrement long et étroit, à extrémité émoussée ou arrondie (Fig. 6F, G). Genitalia femelles orthotopiques, les gonopodes fusiformes mais étroits et étirés, avec un gonostyle terminal (Fig. 9I): la spermathèque membraneuse, assez courte, un peu annelée (Fig. 11G).</p> <p> <i>Eustra plagiata plagiata</i> Schmidt-Goebel, 1846 <i>Eustra plagiata</i> Schmidt-Goebel, 1846: 66. — Chaudoir 1854: 310; 1868: 71.</p> <p> TYPES. — L’espèce <i>E. plagiata</i> Schmidt-Goebel, 1846, étant polytypique, il est souhaitable de désigner le lectotype du taxon nominal pour mieux fixer la nomenclature et éviter toute équivoque.</p> <p> Lectotype (présente désignation): 1, « Lectotype [étiquette rouge] / <i>Birma, Helfer</i> [étiquette blanche] / <i>plagiata Sch. G.</i>, col. Helfer [étiquette blanche] / Mus. Pragense, coll. Helfer [étiquette blanche] / Mus. Nat. Pragae, Inv. <i>26475</i> [étiquette orange] / Typus! teste Dr. J. Obenberger [étiquette rouge] / <i>Eustra plagiata Schm. -G., Lectotype</i>, Th. Deuve dés. 1996 [étiquette blanche] », <i>ex</i> coll. Helfer (MNP).</p> <p> Paralectotype: 1, Birmanie, Tenasserim, <i>ex</i> coll. Helfer (MNP Inv. n°26474).</p> <p> DISTRIBUTION. — <b>Birmanie, Tenasserim.</b></p> <p>DIAGNOSE</p> <p>Pronotum modérément cintré en arrière, les côtés denticulés et assez peu sinués avant les angles basaux, qui sont obtus, peu saillants (lp/Lp = 1,50). Paramère gauche de l’édéage rétréci vers l’apex (Fig. 6G).</p>Published as part of <i>Deuve, Thierry, 2001, Le genre Eustra Schmidt-Goebel, 1846, insectes (Coleoptera, Paussidae, Ozaeninae) à genitalia femelles orthotopiques, pp. 547-578 in Zoosystema 23 (3)</i> on page 574, DOI: <a href="http://zenodo.org/record/5391021">10.5281/zenodo.5391021</a&gt

    FIG. 6 in Le genre Eustra Schmidt-Goebel, 1846, insectes (Coleoptera, Paussidae, Ozaeninae) à genitalia femelles orthotopiques

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    FIG. 6. — Eustra Schmidt-Goebel, 1846, édéages des mâles, face latérale du lobe médian et paramère gauche; A, E. matanga matanga Andrewes, 1919, de Brunei, Bukit Sulang; B, E. matanga darlingtoni n. ssp., paramère gauche de l'holotype; C, E. matanga negrosensis n. ssp., paramère gauche de l'holotype; D, E. csikii csikii Jedlicka, 1968, de Hoa-Binh; E, E. pseudomatanga pseudomatanga n. ssp., de Sulawesi, des environs de Morowali; F, E. plagiata peguensis n. ssp., holotype; G, E. plagiata plagiata Schmidt-Goebel, 1846, paramère gauche du lectotype; H, E. indica n. sp., holotype; I, E. ceylanica n. sp., paramère gauche de l'holotype; J, E. storki n. sp., holotype. Échelle: 0,5 mm.Published as part of Deuve, Thierry, 2001, Le genre Eustra Schmidt-Goebel, 1846, insectes (Coleoptera, Paussidae, Ozaeninae) à genitalia femelles orthotopiques, pp. 547-578 in Zoosystema 23 (3) on page 559, DOI: 10.5281/zenodo.539102

    The ?-subunit of the heterotrimeric G-protein affects jasmonate responses in Arabidopsis thaliana

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    Heterotrimeric G-proteins have been implicated in having a role in many plant signalling pathways. To understand further the role of G-proteins, a preliminary experiment was performed to assess the impact of the G? subunit loss-of-function mutation gpa1-1 on the Arabidopsis transcriptome. The analysis indicated that the G? subunit may play a role in response to jasmonic acid (JA). Consistent with this, G? mutants showed a reduced response to JA in inhibition of chlorophyll accumulation and root growth, whilst G? gain-of-function plants overexpressing G? showed the opposite phenotype. The levels of JA and related compounds were unaffected in the gpa1-1 mutant, as was autoregulation of the Allene Oxide Synthase (AOS) gene that encodes a key enzyme for JA biosynthesis. In contrast, further analyses using G? loss- and gain-of-function Arabidopsis lines indicated that G? positively modulates the expression of the Vegetative Storage Protein (VSP) gene. This indicates that the G? subunit regulates a subset of JA-regulated genes defining a branch point in this signalling pathway in Arabidopsis. Further analysis of the impact of G? loss of function upon the JA-regulated transcriptome using Arabidopsis full genome arrays indicated that up to 29% of genes that are >2-fold regulated by JA in the wild type are misregulated in the G? mutant. This supports the observation that a significant proportion of, but not all, JA-regulated gene expression is mediated by G
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