light microscopy eclipse niu (Nikon)

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Nikon light microscopy eclipse niu

(A–F) Scanning Electron <t>Microscopy</t> (SEM) of small intestine in the inoculated rabbit ileal loops model. Micrograph of the intestinal rabbit mucosa 12 h post- in vivo -inoculation, observed by scanning electron microscopy. (A) Negative control (PBS) – Preserved intestinal epithelial structures with normal microvilli (15.000×). (B) Negative control (EC. DH5α). Preserved intestinal epithelial structures with normal microvilli (pink box) (20.000×). (C) clusters of adhering EC.2348/69 (positive control) (red box) (5.000×). (D) clusters of adhering EC.2348/69 (positive control) (red box) (15.000×). (E) macaw isolate MA-81- abundant mucous (blue box) and erythrocytes (white box) (15.000×). (F) macaw isolate MA-81 irregular epithelial intestinal surface showing loss of intestinal microvilli (green box) (5.000×).

Light Microscopy Eclipse Niu, supplied by Nikon, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/product/standard+microscopy+software+nis-elements/pmc07717848-70-5-10?v=Nikon
Average 90 stars, based on 1 article reviews

light microscopy eclipse niu - by Bioz Stars, 2026-06

90/100 stars

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1) Product Images from "Genomic characterization of enteropathogenic Escherichia coli (EPEC) of avian origin and rabbit ileal loop response; a pet macaw ( Ara chloropterus ) as a possible zoonotic reservoir"

Article Title: Genomic characterization of enteropathogenic Escherichia coli (EPEC) of avian origin and rabbit ileal loop response; a pet macaw ( Ara chloropterus ) as a possible zoonotic reservoir

Journal: The Veterinary Quarterly

doi: 10.1080/01652176.2020.1845916

(A–F) Scanning Electron Microscopy (SEM) of small intestine in the inoculated rabbit ileal loops model. Micrograph of the intestinal rabbit mucosa 12 h post- in vivo -inoculation, observed by scanning electron microscopy. (A) Negative control (PBS) – Preserved intestinal epithelial structures with normal microvilli (15.000×). (B) Negative control (EC. DH5α). Preserved intestinal epithelial structures with normal microvilli (pink box) (20.000×). (C) clusters of adhering EC.2348/69 (positive control) (red box) (5.000×). (D) clusters of adhering EC.2348/69 (positive control) (red box) (15.000×). (E) macaw isolate MA-81- abundant mucous (blue box) and erythrocytes (white box) (15.000×). (F) macaw isolate MA-81 irregular epithelial intestinal surface showing loss of intestinal microvilli (green box) (5.000×).

Figure Legend Snippet: (A–F) Scanning Electron Microscopy (SEM) of small intestine in the inoculated rabbit ileal loops model. Micrograph of the intestinal rabbit mucosa 12 h post- in vivo -inoculation, observed by scanning electron microscopy. (A) Negative control (PBS) – Preserved intestinal epithelial structures with normal microvilli (15.000×). (B) Negative control (EC. DH5α). Preserved intestinal epithelial structures with normal microvilli (pink box) (20.000×). (C) clusters of adhering EC.2348/69 (positive control) (red box) (5.000×). (D) clusters of adhering EC.2348/69 (positive control) (red box) (15.000×). (E) macaw isolate MA-81- abundant mucous (blue box) and erythrocytes (white box) (15.000×). (F) macaw isolate MA-81 irregular epithelial intestinal surface showing loss of intestinal microvilli (green box) (5.000×).

Techniques Used: Electron Microscopy, In Vivo, Negative Control, Positive Control

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light microscopy eclipse niu (Nikon)

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1) Product Images from "Genomic characterization of enteropathogenic Escherichia coli (EPEC) of avian origin and rabbit ileal loop response; a pet macaw ( Ara chloropterus ) as a possible zoonotic reservoir"

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