356,210 Works

FIGURES 1–6. 1–4 in A new species of Tropidion (Neoibidionini), synonymies in Rhinotragini, notes on Pirangoclytus(Clytini) andHemicladus (Calliini), andnew recordsin Cerambycidae (Coleoptera)

Antonio Santos-Silva, Francisco E. De L. Nascimento & Gabriel Biffi
FIGURES 1–6. 1–4, Tropidion flechtmanni sp. nov., holotype male: 1, Dorsal habitus; 2, Ventral habitus; 3, Lateral habitus; 4, Head, frontal view. 5–6, T. zonapterum (Martins, 1962), male: 5, Dorsal habitus; 6, Ventral habitus. Scale bars: 1–3, 5–6: 2 mm; 4: 1 mm.

Mapa de Procesos para los Centros de Desarrollo

Ailía Parra Fernández
Mapa de Procesos para los Centros de Desarrollo

DEPRECATED

DEPRECATED

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Example of capsule endoscopy findings for small bowel lesions

Myoelectric Logging Device for Upper Limb Prostheses

Nicholas Radda, Carlos Martinez-Luna, Benjamin McDonald, Brianna Rozell, Todd Farrell & Inc. Liberating Technologies
Myoelectric training is important for new patients learning prosthetic limb control. Upper-limb prosthetic fittings are often not successful because the prosthesis does not provide functionality that the user expects. Myoelectric prosthetic users must develop control skills by exercising muscles. Without proper training, users cannot reliably provide suitable myoelectric signals and often fatigue quickly. LTI has developed a logging device (Myologger) to ensure the effectiveness of training over time can be measured accurately.
Poster for a Myoelectric...

Myoelectric Logging Device for Upper Limb Prostheses

Nicholas Radda, Carlos Martinez-Luna, Benjamin McDonald, Brianna Rozell, Todd Farrell & Inc. Liberating Technologies
Myoelectric training is important for new patients learning prosthetic limb control. Upper-limb prosthetic fittings are often not successful because the prosthesis does not provide functionality that the user expects. Myoelectric prosthetic users must develop control skills by exercising muscles. Without proper training, users cannot reliably provide suitable myoelectric signals and often fatigue quickly. LTI has developed a logging device (Myologger) to ensure the effectiveness of training over time can be measured accurately.
Poster for a Myoelectric...

Fig. 3 in French Mediterranean islands as a refuge of relic earthworm species: Cataladrilus porquerollensis sp. nov. and Scherotheca portcrosana sp. nov. (Crassiclitellata, Lumbricidae)

Daniel F. Marchán, Thibaud Decaëns, Darío J. Díaz Cosín, Mickaël Hedde, Emmanuel Lapied & Jorge Domínguez
Fig. 3. External morphology of Scherotheca portcrosana Marchán & Decäens sp. nov. a. Live specimen (© T. Decaëns). b. Fixed specimen. c. Schematic drawing. Abbreviations: cl = clitellum; fp = female pore; mp = male pore; tp = tubercula pubertatis.

Additional file 2 of An interferometric ex vivo study of corneal biomechanics under physiologically representative loading, highlighting the role of the limbus in pressure compensation

Abby Wilson, John Jones, John R. Tyrer & John Marshall
Additional file 2: Supplementary Figure 2. Surface plots showing out-of-plane displacement of human corneas in response to a pressure increase from 16.50 mmHg to 16.75 mmHg. Positions marked with X relate to locations at which limbal and central displacements were compared in Table 1.

Traveller for the Inspection and Painting of Tubes. 1859.

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Figure S10 linalool in vivo headspace

Charlotte Francoeur
We exposed five sub-colonies of A. cephalotes to linalool for 12, 24, and 36 hours and then sampled the headspace at each time point. Fungus garden vials had significantly reduced amounts of linalool compared to empty vials and vials with cotton (A). When L. gongylophorus was grown in isolation and exposed to linalool for 36 hours, there was a significant decrease in linalool compared to the control vials (B). In part (A) a linear-mixed regression...

Figure S12 OD600 of GC-MS vials

Charlotte Francoeur
OD600 data from bacterial isolates grown in 10% TSB and α-pinene, β-caryophyllene, eucalyptol or linalool for 48 hours. N=1 for each bacterial-PSC vial and N=1 for bacteria grown in only 10% TSB (no PSC added). The OD600 of each bacteria-PSC vial was blanked to a vial with 10% TSB + 2.5 µL of the respective PSC.

Transcriptomic profiling of the size heterogeneous Spotted Babylon (Babylonia areolata)-Quality validation and analyses

Wang Zhao &
看准巴比伦(斑东风螺),是一种水生动物,在中国和广阔的国际市场,经济价值高东南亚 亚洲。在生长期,巴比伦乳制品中经常存在大小异质性。但是,很少有全基因组的转录反应和分析数据集可用于探索巴比伦乳突果的大小异质性。在这项研究中,根据壳长对幼蜗牛进行了分级。10%的蜗牛分别以最长和最短壳长分开,并将它们定义为快速生长等级和慢速生长等级。从每个年级随机抽取蜗牛的脚部肌肉和内脏质量,并进行转录组测序。通过一系列质量检查,包括对RNA样品质量和RNA-Seq读取质量的验证,验证了本研究中获得的数据集的质量。数据分析包括差异基因的统计分析和聚类分析。全基因组转录的数据集 SIZ Ë异构斑点巴比伦。

Figure 3 in Reproductive ecology of a Tibetan frog Nanorana parkeri (Anura: Ranidae)

Xin Lu, Xiaoyan Ma, Liqing Fan, Yigang Hu, Zedong Lang, Zhibin Li, Bohao Fang & Weibin Guo
Figure 3. Breeding chronology (the number of amplectant pairs observed per day) of the frogs in relation to ambient temperature and rainfall during the 2007 breeding season.

Woodcock et al_Supplemental information

Supplemental Information

DoeDat Camera Trap Project 1770967 (Meise Botanic Garden)

A project on the DoeDat platform of Meise Botanic Garden. Footage of camera traps is offered to volunteers for identification of the animals visible, if any. This deposition is an archive of the images in this project as well as the transcription results formatted in Darwin Core.

Non-Pharmacological Management of Painful Peripheral Neuropathies: A Systematic Review

Andreas Liampas, Martina Rekatsina, Athina Vadalouca, Antonella Paladini, Giustino Varrassi & Panagiotis Zis
Article full text
The above Summary Slide represents the opinions of the authors. For a full list of declarations, including funding and author disclosure statements, please see the full text online (see “read the peer-reviewed publication” opposite). © The authors, CC-BY-NC 2020.

Fig. 4. Cobbionema cylindrolaimoides Schuurmans Stekhoven, 1950. A in Revision of the genus Cobbionema Filipjev, 1922 (Nematoda, Chromadorida, Selachinematidae)

Mohammed Ahmed, Sven Boström & Oleksandr Holovachov
Fig. 4. Cobbionema cylindrolaimoides Schuurmans Stekhoven, 1950. A. Female head region (ventral side to the left) (SMNH-179211). B. Surface view of female head (ventral side to the left) (SMNH- 197211). C. Surface view of male head (ventral side to the right) (SMNH-179212). D. Anterior part of male (ventral side to the right) (SMNH-179212). E. Female mid body region showing anterior branch of the reproductive system and an egg (SMNH-179211). F. Dorsoventral view of spicules (SMNH-...

Fig. 9 in Revision of the genus Cobbionema Filipjev, 1922 (Nematoda, Chromadorida, Selachinematidae)

Mohammed Ahmed, Sven Boström & Oleksandr Holovachov
Fig. 9. Cobbionema acuminata sp. nov. Light micrographs. A. Stoma of male holotype (SMNH Type- 9221) showing stoma armament, arrow pointing to the right ventrosublateral tine. B. Anterior part of a male showing sphincter muscle surrounding the anterior stoma chamber (arrow). C. Stoma of male holotype (SMNH Type-9221) showing the arrangement of the pointed projections and the left ventrosublateral tine. D–E. Caudal region of male paratype (SMNH Type-9222) showing the crura (arrow) and spicule. F....

Fig. 10 in Revision of the genus Cobbionema Filipjev, 1922 (Nematoda, Chromadorida, Selachinematidae)

Mohammed Ahmed, Sven Boström & Oleksandr Holovachov
Fig. 10. Maximum Likelihood phylogenetic tree of Selachinematidae Cobb, 1915 inferred from 18S rRNA data, using alignments based on secondary structure models using GTR GAMMA for unpaired sites and RNA7A for paired sites.

Fig. 11 in Revision of the genus Cobbionema Filipjev, 1922 (Nematoda, Chromadorida, Selachinematidae)

Mohammed Ahmed, Sven Boström & Oleksandr Holovachov
Fig. 11. Bayesian phylogenetic tree of Selachinematidae Cobb, 1915 inferred from 18S rRNA data, using alignments based on secondary structure models using REV GAMMA for unpaired sites and RNA16A for paired sites.

FIGURE 15. Hypopygium, ventral. A in Re-classification of Lycoriella Frey sensu lato (Diptera, Sciaridae), with description of Trichocoelina gen. n. and twenty new species

Pekka Vilkamaa & Frank Menzel
FIGURE 15. Hypopygium, ventral. A. Trichocoelina semusta sp. n. (holotype). B. T. tecta sp. n. (holotype). Scale 0.1 mm.

FIGURE 15. Hypopygium, ventral. A in Re-classification of Lycoriella Frey sensu lato (Diptera, Sciaridae), with description of Trichocoelina gen. n. and twenty new species

Pekka Vilkamaa & Frank Menzel
FIGURE 15. Hypopygium, ventral. A. Trichocoelina semusta sp. n. (holotype). B. T. tecta sp. n. (holotype). Scale 0.1 mm.

Additional file 7 of Nutritional status impacts dengue virus infection in mice

Christina Chuong, Tyler A. Bates, , Stephen R. Werre, Tanya LeRoith & James Weger-Lucarelli
Additional file 7: Figure S6. Hematological changes following secondary dengue virus infection in mice with different nutritional status. 6-week old female C57BL/6J mice were fed for 8-10 weeks on a control (healthy weight), high-fat (obese), or low-protein (protein-energy malnutrition, PEM) diet and then treated with 1 mg of antibody to block interferon receptor signaling (IFNAR blocking antibody). The next day, mice were infected with DENV2 Puo-218. Fiftyfive days later, mice were again treated with 1...

Additional file 7 of Nutritional status impacts dengue virus infection in mice

Christina Chuong, Tyler A. Bates, , Stephen R. Werre, Tanya LeRoith & James Weger-Lucarelli
Additional file 7: Figure S6. Hematological changes following secondary dengue virus infection in mice with different nutritional status. 6-week old female C57BL/6J mice were fed for 8-10 weeks on a control (healthy weight), high-fat (obese), or low-protein (protein-energy malnutrition, PEM) diet and then treated with 1 mg of antibody to block interferon receptor signaling (IFNAR blocking antibody). The next day, mice were infected with DENV2 Puo-218. Fiftyfive days later, mice were again treated with 1...

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  • California Institute of Technology
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  • University of Pittsburgh
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  • University of Massachusetts Medical School
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  • Huazhong University of Science and Technology
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  • Shanghai University of Traditional Chinese Medicine
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  • Fudan University
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  • University of Luxembourg
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  • Chinese Academy of Medical Sciences & Peking Union Medical College
    3
  • Technical University of Crete
    3
  • Drexel University
    3