Microscopy. Microscopy Techniques objective light source “transmitted”

Slides:

Advertisements

Similar presentations

Adjusting a Microscope 1Center components on optic axis 2Focus objective 3Focus condenser 4Adjust illumination lamp voltage (intensity) iris diaphragm.

Advertisements

Chapter 4 Notes Part II: Microscopy (refer to pg.60-61)

Observing Microorganisms Through a Microscope

IPC Friedrich-Schiller-Universität Jena Contrast modes in light microscopy: Bright field.

Microscopy Outline 1.Resolution and Simple Optical Microscope 2.Contrast enhancement: Dark field, Fluorescence (Chelsea & Peter), Phase Contrast, DIC 3.Newer.

Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. 1 The Study of Microbial Structure: Microscopy and Specimen.

Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. 1 The Dark-Field Microscope Image is formed by light reflected.

Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. 1 Microscopy.

Special microscopes Light microscopes developed for special diagnostic, or research purposes. Most often used types: Stereo microscope Dark field microscope.

ERT107 MICROBIOLOGY FOR BIOPROCESS ENGINEERING Pn Syazni Zainul Kamal PPK Bioprocess.

Types of Light Microscopy Jenna Moranski. Compound Light Microscope What can be viewed Transparent samples Dead specimen Must be small enough to fit on.

1. Resolution (R) : separation of close objects, light wavelength NA, numerical aperture 2. Contrast : distinction of objects from background “light field”

Microscope Objective Parameters. What do the Numbers on the Objective Mean ?

02 Dissecting Microscope. A B Carrying a Microscope.

Microscopy Boot Camp /08/25 Nikitchenko Maxim Baktash Babadi.

Fluorophores bound to the specimen surface and those in the surrounding medium exist in an equilibrium state. When these molecules are excited and detected.

Geometrical Optics and Basic Imaging Light Paths of the Bright Field Microscope E. D. Salmon University of North Carolina at Chapel Hill.

P. Moghe, 125:583 1 Microscopy Techniques for Biomaterials and Cell Based Interfaces Professor Prabhas V. Moghe October 26, :583 Fall 2006.

USE AND CARE OF THE MICROSCOPE LECTURE 1. MICROSCOPY u Light Microscopy: any microscope that uses visible light to observe specimens u Compound Light.

WHAT DO YOU ALREADY KNOW ABOUT CELLS?

Studying the Microbial World (microscopes) Supplemental instruction Designed by Pyeongsug Kim ©2010 Picture from

Microscopy Techniques for Biomaterial Characterization: A Primer Prabhas V. Moghe Lecture 3 September 21, 1999 RU CBE 533 or BME 553; NJIT BME 698.

Light Microscopy Sarah Heintz. Compound Microscope The microscope uses a lens that is close to the object and uses light to focus on the real image of.

Microscopy. A typical video microscope What do you see? Integument pigmented skin.

Microscopes The Discovery of Cells Quiz Number paper from 1-5 Identify the following pictures.

BIODIVERSITY I BIOL1051 Microscopy Professor Marc C. Lavoie

Microscopy. Scale Lenses and the Bending of Light light is refracted (bent) when passing from one medium to another refractive index –a measure of how.

MICROSCOPES Microscopic Instruments differ in their lenses and the source of their illumination.

Tools of the Laboratory: The Microscope

Honors Microbiology: Chapter 3 Microscopy and Staining

Microscopes. Compound Light Microscope – Use lenses to magnify the image of an object by focusing light – Cell structures as small as 1 millionth of a.

Microscopy 1. UNITS OF MEASUREMENT 1 m = 1000 mm (millimeters) 1 m = 1000 mm (millimeters) 1000 mm = 1 µm (microns) 1000 mm = 1 µm (microns) Bacteria.

Agenda How to make the specimen visible – Definition of Contrast

Tools for Viewing Life Light Microscope ◦ Compound ◦ Stereo/ Dissecting Electron Microscope ◦ Scanning (SEM) ◦ Transmission (TEM) X-rays CT-scan Ultrasound.

Advanced Biology Visualizing Cells. The Human Eye  Resolution – The minimum distance two points can be apart and still be distinguished as two separate.

Microscopes Compound Bright-Field Light Microscope

KEY CONCEPT Cells are the Basic unit of life.. The cell theory grew out of the work of many scientists and improvements in the microscope. Many scientists.

Basic Microscopy – An Overview – October 2005 Protistology Course MBL, Woods Hole, MA.

Microscopes and Other Tools

Confocal Laser Scanning Microscopy: general considerations and techniques Simone Bossi.

Imaging Technology and Staining Techniques CHAPTER 1.3.

An instrument for magnifying very small objects

Designing a Microscopy Experiment Kurt Thorn, PhD Director, Image from Susanne Rafelski, Marshall lab.

Microscope: instrument that magnifies small objects that cannot be seen by naked eye. Microscope: instrument that magnifies small objects that cannot.

 Bright-field  Dark-field  Phase Contrast  Fluorescence.

THE MICROSCOPE. Antony van Leeuwenhoek ( ) Inventor of the first microscope.

Brightfield Contrasting Techniques Kurt Thorn NIC.

Microscopy Group 2 Cabatit, Mendoza, Ramos, Rodriguez, Tan.

By c.Keerthana.  First described by Dutch physicist frits Zernike in  It is a type of light microscopy.  It is a contrast enhancing optical technique.

MICROSCOPE BY Dr NEETHA. CONTENTS  HISTORY  PROPERTIES  TYPES  PARTS  WORKING PRINCIPLE.

Laboratory Introduction

Dr. Samah Kotb Nasr Eldeen

Microscopes and Other Tools

Microbiology: A Systems Approach

3.3 Other types of microscopy

Bright-Field Microscopy

Observing Microorganisms Through a Microscope

The Study of Microbial Structure: Microscopy and Specimen Preparation

Microbiology Lab Practices.

Evanescent Excitation and Emission in Fluorescence Microscopy

Concept: Cell Biology tools - microscopy & chemistry

LIGHT MICROSCOPY variations

Laboratory Exercise 2 “Microscopy”.

140MIC: Microbiology Lecture-6 Microscopes.

Observing Microorganisms Through a Microscope

Presentation transcript:

Microscopy

Microscopy Techniques objective light source “transmitted”

Light microscope - transmitting

Microscopy Techniques light source/objective reflected dissecting microscope

Stereo or dissecting microscope

Microscopy Techniques light source/objective incident/epi-illumination fluorescent

Fluorescence fluorescence = process of excitation, loss of energy & emission of light from a fluorophore

Fluorescence Microscopy

Contrast contrast = difference in color & light between parts of an object/image – required to see an object by microscope – can come from variations in Intensity (DIC, Phase) color (bright field, fluorescence) cphasecomparison.html cphasecomparison.html

Contrast cells typically are – transparent (not amplitude objects) – phase objects – low in contrast contrast-generating techniques turn phase differences into intensity differences so we can see unstained cells using transmitted light – DIC (Differential Interference Contrast) microscopy – /folu473laser/FoLu-EGFP-EB3-100x-1s.html /folu473laser/FoLu-EGFP-EB3-100x-1s.html

In Figure 1(c), a thick section of murine kidney tissue imaged with differential interference contrast reveals a bundle of cells enclosed within a tubule. A phase contrast image (Figure 1(d)) of the same area is confusing and disturbed by the presence of phase halos outside the plane of focus.

A human buccal mucosa epithelial (cheek) cell, revealing the nucleus, cytoplasmic inclusions, and numerous bacteria on the upper surface, is presented in Figure 1(a), imaged with differential interference contrast. The same viewfield with phase contrast illumination is illustrated in Figure 1(b). The phase contrast image features pronounced halos around the cellular periphery and nucleus, which are absent in the differential interference contrast image. Relatively high magnification views of an Obelia polypoid annulated stem perisarc in DIC and phase contrast are illustrated in Figures 1(e) and 1(f), respectively. In DIC, (Figure 1(e)) the annular structure appears hemispherical with internal rays that emanate radially from the stem. In addition, granular particles are visible within the stem structure, but anatomical detail is largely undefined. The phase contrast image (Figure 1(f)) is confused by halos around the annular rings and within the stem.