Microscopy

Zebrafish (larva). Lauderdale's LabZebrafish (larva). Lauderdale’s Lab

Zebrafish (larva). Lauderdale's Lab

Tetrahymena Cell - Confocal imaging of Cilia stained for tubulin. Gaertig lab.Tetrahymena Cell – Confocal imaging of Cilia stained for tubulin. Gaertig lab.

Tetrahymena Cell – Confocal imaging of Cilia stained for tubulin. Gaertig lab.29-Aug-2012 11:41

Trypanosoma brucei. Nuclei stained with DAPI (Blue). Catherine, Mensa-Wilmot LabTrypanosoma brucei. Nuclei stained with DAPI (Blue). Catherine, Mensa-Wilmot Lab

Trypanosoma brucei. Nuclei stained with DAPI (Blue). Catherine, Mensa-Wilmot Lab20-Jun-2012 11:31

A SIM image of Myxococcus xanthus bacterial cells stained with DAPI for DNA (blue) and Nile Red for membrane (red). ELYRA S1. Imaged by Kandasamy, BMC. Slide courtesy of How-Yi, Shimkets lab.A SIM image of Myxococcus xanthus bacterial cells stained with DAPI for DNA (blue) and Nile Red for membrane (red). ELYRA S1. Imaged by Kandasamy, BMC. Slide courtesy of How-Yi, Shimkets lab.

A SIM image of Myxococcus xanthus bacterial cells stained with DAPI for DNA (blue) and Nile Red for membrane (red). ELYRA S1. Imaged by Kandasamy, BMC. Slide courtesy of How-Yi, Shimkets lab.14-Nov-2013 15:58

A deconvolved fluorescence microscopy image of Toxoplasma gondii parasite that has infected HFF host cells. Green: Apicoplast organelle, red: ISP1 protein and blue: DNA. DV II. Imaged by Kandasamy, BMC. Slide courtesy of Erica, Striepen labA deconvolved fluorescence microscopy image of Toxoplasma gondii parasite that has infected HFF host cells. Green: Apicoplast organelle, red: ISP1 protein and blue: DNA. DV II. Imaged by Kandasamy, BMC. Slide courtesy of Erica, Striepen lab

A deconvolved fluorescence microscopy image of Toxoplasma gondii parasite that has infected HFF host cells. Green: Apicoplast organelle, red: ISP1 protein and blue: DNA. DV II. Imaged by Kandasamy, BMC. Slide courtesy of Erica, Striepen lab25-Sep-2013 11:56

 
Total White Blood Cells - Confocal Image - Kandasamy, Meagher LabTotal White Blood Cells – Confocal Image – Kandasamy, Meagher Lab

Total White Blood Cells – Confocal Image – Kandasamy, Meagher Lab12-Oct-2012 09:13

Purified human CD4+ Helper T cells attached to paramagnetic beads - Confocal image by Kandasamy, Meagher Lab.Purified human CD4+ Helper T cells attached to paramagnetic beads – Confocal image by Kandasamy, Meagher Lab.

Purified human CD4+ Helper T cells attached to paramagnetic beads – Confocal image by Kandasamy, Meagher Lab.19-Sep-2012 14:46

Drosophila larval brain stained for Serotonin (red) and NPFR1-GFP (green). Imaged by Yonghua Wang, Shen LabDrosophila larval brain stained for Serotonin (red) and NPFR1-GFP (green). Imaged by Yonghua Wang, Shen Lab

Drosophila larval brain stained for Serotonin (red) and NPFR1-GFP (green). Imaged by Yonghua Wang, Shen Lab09-Jan-2013 10:39

Drosophila testis labeled with molecular markers for germ cells (red) and somatic cells (green). Schulz Lab.Drosophila testis labeled with molecular markers for germ cells (red) and somatic cells (green). Schulz Lab.

Drosophila testis labeled with molecular markers for germ cells (red) and somatic cells (green). Schulz Lab.30-Nov-2007 11:35

Zebrafish embryo (~20 hour old) with the axons labeled with fluorescent protein (green). Lauderdale's LabZebrafish embryo (~20 hour old) with the axons labeled with fluorescent protein (green). Lauderdale’s Lab

Zebrafish embryo (~20 hour old) with the axons labeled with fluorescent protein (green). Lauderdale's Lab

 
The tip of a Drosophila testis showing how the germ cells (red) are enclosed by their microenvironment cells (green). Schulz Lab.The tip of a Drosophila testis showing how the germ cells (red) are enclosed by their microenvironment cells (green). Schulz Lab.

The tip of a Drosophila testis showing how the germ cells (red) are enclosed by their microenvironment cells (green). Schulz Lab.25-Jan-2012 16:43

Drosophila egg chamber labeled for the DNA-dye DAPI (blue) and the nucleoprin nup98-96 (red). Schulz Lab.Drosophila egg chamber labeled for the DNA-dye DAPI (blue) and the nucleoprin nup98-96 (red). Schulz Lab.

Drosophila egg chamber labeled for the DNA-dye DAPI (blue) and the nucleoprin nup98-96 (red). Schulz Lab.06-Nov-2008 18:12

A tumorous cluster of germ cells in Drosophila testis labeled for the DNA dye DAPI and a mitosis marker (red). Schulz Lab.A tumorous cluster of germ cells in Drosophila testis labeled for the DNA dye DAPI and a mitosis marker (red). Schulz Lab.

A tumorous cluster of germ cells in Drosophila testis labeled for the DNA dye DAPI and a mitosis marker (red). Schulz Lab.25-Jan-2012 13:04

A confocal image of bovine pulmonary artery endothelial cells stained for actin (green), mitochondria (red) and DNA (blue). LSM 710. Imaged by Kandasamy, BMC.A confocal image of bovine pulmonary artery endothelial cells stained for actin (green), mitochondria (red) and DNA (blue). LSM 710. Imaged by Kandasamy, BMC.

A confocal image of bovine pulmonary artery endothelial cells stained for actin (green), mitochondria (red) and DNA (blue). LSM 710. Imaged by Kandasamy, BMC.14-Dec-2012 10:49

A deconvolved image of bovine pulmonary artery endothelial cells stained for actin (green), mitochondria (red) and DNA (blue). DV I. Imaged by Kandasamy, BMC.A deconvolved image of bovine pulmonary artery endothelial cells stained for actin (green), mitochondria (red) and DNA (blue). DV I. Imaged by Kandasamy, BMC.

A deconvolved image of bovine pulmonary artery endothelial cells stained for actin (green), mitochondria (red) and DNA (blue). DV I. Imaged by Kandasamy, BMC.05-Nov-2012 10:50

 
A deconvolved image of bovine pulmonary artery endothelial cells stained for actin (green), mitochondria (red) and DNA (blue). DV I. Imaged by Kandasamy, BMC.A deconvolved image of bovine pulmonary artery endothelial cells stained for actin (green), mitochondria (red) and DNA (blue). DV I. Imaged by Kandasamy, BMC.

A deconvolved image of bovine pulmonary artery endothelial cells stained for actin (green), mitochondria (red) and DNA (blue). DV I. Imaged by Kandasamy, BMC.24-May-2012 09:15

A deconvolved image of bovine pulmonary artery endothelial cell stained for actin (green), mitochondria (red) and DNA (blue). DV I. Imaged by Kandasamy, BMC.A deconvolved image of bovine pulmonary artery endothelial cell stained for actin (green), mitochondria (red) and DNA (blue). DV I. Imaged by Kandasamy, BMC.

A deconvolved image of bovine pulmonary artery endothelial cell stained for actin (green), mitochondria (red) and DNA (blue). DV I. Imaged by Kandasamy, BMC.11-May-2012 11:43

An enlarged portion of a deconvolved image of bovine pulmonary artery endothelial cell stained for actin (green), mitochondria (red) and DNA (blue). DV I. Imaged by Kandasamy, BMC.An enlarged portion of a deconvolved image of bovine pulmonary artery endothelial cell stained for actin (green), mitochondria (red) and DNA (blue). DV I. Imaged by Kandasamy, BMC.

An enlarged portion of a deconvolved image of bovine pulmonary artery endothelial cell stained for actin (green), mitochondria (red) and DNA (blue). DV I. Imaged by Kandasamy, BMC.11-May-2012 11:30

A super resolution image of a human cell stained for actin (green), mitochondria (red) and DNA (blue). Image taken with ELYRA S1 by Kandasamy, BMCA super resolution image of a human cell stained for actin (green), mitochondria (red) and DNA (blue). Image taken with ELYRA S1 by Kandasamy, BMC

A super resolution image of a human cell stained for actin (green), mitochondria (red) and DNA (blue). Image taken with ELYRA S1 by Kandasamy, BMC07-Mar-2013 17:07

A deconvolved fluorescence microscopy image of MDCK II cells stained for F-actin (green), K-9 protein (red) and DNA (blue). DV I. Imaged by Kandasamy, BMCA deconvolved fluorescence microscopy image of MDCK II cells stained for F-actin (green), K-9 protein (red) and DNA (blue). DV I. Imaged by Kandasamy, BMC

A deconvolved fluorescence microscopy image of MDCK II cells stained for F-actin (green), K-9 protein (red) and DNA (blue). DV I. Imaged by Kandasamy, BMC27-Sep-2013 12:09

 
Bovine pulmonary artery endothelial cells stained with Alexa Fluor 488 phalloidin for actin (green), MitoTracker Red CMXRos for mirochondria (red) and DAPI for DNA (blue). LSM 710. Imaged by Kandasamy, BMC.Bovine pulmonary artery endothelial cells stained with Alexa Fluor 488 phalloidin for actin (green), MitoTracker Red CMXRos for mirochondria (red) and DAPI for DNA (blue). LSM 710. Imaged by Kandasamy, BMC.

Bovine pulmonary artery endothelial cells stained with Alexa Fluor 488 phalloidin for actin (green), MitoTracker Red CMXRos for mirochondria (red) and DAPI for DNA (blue). LSM 710. Imaged by Kandasamy, BMC.19-Apr-2013 09:40

Arabidopsis suspension cell showing the organization of actin filaments (green). Nucleus (red). Imaged by Kandasamy, Meagher's LabArabidopsis suspension cell showing the organization of actin filaments (green). Nucleus (red). Imaged by Kandasamy, Meagher’s Lab

Arabidopsis suspension cell showing the organization of actin filaments (green). Nucleus (red). Imaged by Kandasamy, Meagher's Lab

Arabidopsis leaf cell misexpressing a reproductive actin (green). Chloroplasts (red). Imaged by Kandasamy, Meagher's LabArabidopsis leaf cell misexpressing a reproductive actin (green). Chloroplasts (red). Imaged by Kandasamy, Meagher’s Lab

Arabidopsis leaf cell misexpressing a reproductive actin (green). Chloroplasts (red). Imaged by Kandasamy, Meagher's Lab03-Aug-2010 13:17

HXK1 localization to the mitochondria (green) of Arabidopsis leaf cells. Nuclei shown in red. Confocal image. Imaged by Kandasamy, Meagher's LabHXK1 localization to the mitochondria (green) of Arabidopsis leaf cells. Nuclei shown in red. Confocal image. Imaged by Kandasamy, Meagher’s Lab

HXK1 localization to the mitochondria (green) of Arabidopsis leaf cells. Nuclei shown in red. Confocal image. Imaged by Kandasamy, Meagher's Lab19-Jan-2007 10:02

Arabidopsis leaf vein cells - Confocal image of actin filaments in live cells expressing GFP-fABD2. Imaged by Kandasamy, BMC.Arabidopsis leaf vein cells – Confocal image of actin filaments in live cells expressing GFP-fABD2. Imaged by Kandasamy, BMC.

Arabidopsis leaf vein cells – Confocal image of actin filaments in live cells expressing GFP-fABD2. Imaged by Kandasamy, BMC.29-Aug-2012 09:48

 
Arabidopsis ARP7 protein localization in the nuclei (green). Imaged by Kandasamy, Meagher's LabArabidopsis ARP7 protein localization in the nuclei (green). Imaged by Kandasamy, Meagher’s Lab

Arabidopsis ARP7 protein localization in the nuclei (green). Imaged by Kandasamy, Meagher's Lab

Arabidopsis ARP8 protein localization in the nucleolus of root apical cells (green). Nucleus (red). Imaged by Kandasamy, Meagher's LabArabidopsis ARP8 protein localization in the nucleolus of root apical cells (green). Nucleus (red). Imaged by Kandasamy, Meagher’s Lab

Arabidopsis ARP8 protein localization in the nucleolus of root apical cells (green). Nucleus (red). Imaged by Kandasamy, Meagher's Lab06-Feb-2012 17:48

Microtubule organization in maize microspore mother cells. Imaged by Kandasamy, Meagher's LabMicrotubule organization in maize microspore mother cells. Imaged by Kandasamy, Meagher’s Lab

Microtubule organization in maize microspore mother cells. Imaged by Kandasamy, Meagher's Lab20-Dec-2011 12:01

Toxoplasma gondii labeled for inner membrane complex (IMC, red), MORN1 (green) and DNA (Blue). Striepen's Lab.Toxoplasma gondii labeled for inner membrane complex (IMC, red), MORN1 (green) and DNA (Blue). Striepen’s Lab.

Toxoplasma gondii labeled for inner membrane complex (IMC, red), MORN1 (green) and DNA (Blue). Striepen's Lab.19-Dec-2011 10:08

Sarcocystis neurona labeled for apicoplast (green), micronemes (red) and DNA (blue). Striepen’s Lab.Sarcocystis neurona labeled for apicoplast (green), micronemes (red) and DNA (blue). Striepen’s Lab.

Sarcocystis neurona labeled for apicoplast (green), micronemes (red) and DNA (blue). Striepen’s Lab.19-Dec-2011 10:06

 
Toxoplasma gondii labeled for mitochondria (green) and the apicoplast (red). Imaged by Carrie Brooks, Striepen’s Lab.Toxoplasma gondii labeled for mitochondria (green) and the apicoplast (red). Imaged by Carrie Brooks, Striepen’s Lab.

Toxoplasma gondii labeled for mitochondria (green) and the apicoplast (red). Imaged by Carrie Brooks, Striepen’s Lab.24-Jan-2012 12:55

A super resolution (SIM) image of Toxoplasma gondii parasite that has infected HFF host cells. Green: Apicoplast organelle, red: ISP1 protein and blue: DNA. ELYRA S1. Imaged by Kandasamy, BMCA super resolution (SIM) image of Toxoplasma gondii parasite that has infected HFF host cells. Green: Apicoplast organelle, red: ISP1 protein and blue: DNA. ELYRA S1. Imaged by Kandasamy, BMC

A super resolution (SIM) image of Toxoplasma gondii parasite that has infected HFF host cells. Green: Apicoplast organelle, red: ISP1 protein and blue: DNA. ELYRA S1. Imaged by Kandasamy, BMC26-Sep-2013 14:08

Toxoplasma gondii. Super resolution (SIM) image taken with Zeiss ELYRA S1. Green: Kinesin, Red: IMC proteins, Blue: DNA. ELYRA S1. Striepen lab.Toxoplasma gondii. Super resolution (SIM) image taken with Zeiss ELYRA S1. Green: Kinesin, Red: IMC proteins, Blue: DNA. ELYRA S1. Striepen lab.

Toxoplasma gondii. Super resolution (SIM) image taken with Zeiss ELYRA S1. Green: Kinesin, Red: IMC proteins, Blue: DNA. ELYRA S1. Striepen lab.15-Feb-2013 13:43

Toxoplasma gondii. Wide-field and super resolution (SIM) images taken with Zeiss ELYRA S1. Green: Kinesin, Red: IMC proteins, Blue: DNA. ELYRA S1. Striepen lab.Toxoplasma gondii. Wide-field and super resolution (SIM) images taken with Zeiss ELYRA S1. Green: Kinesin, Red: IMC proteins, Blue: DNA. ELYRA S1. Striepen lab.

Toxoplasma gondii. Wide-field and super resolution (SIM) images taken with Zeiss ELYRA S1. Green: Kinesin, Red: IMC proteins, Blue: DNA. ELYRA S1. Striepen lab.25-Feb-2013 09:33

Zebrafish larva (5 day old). Cross section of the head with green color labeling the axons of the brain and the red color showing antibody labeling of c-fos protein. Lauderdale's LabZebrafish larva (5 day old). Cross section of the head with green color labeling the axons of the brain and the red color showing antibody labeling of c-fos protein. Lauderdale’s Lab

Zebrafish larva (5 day old). Cross section of the head with green color labeling the axons of the brain and the red color showing antibody labeling of c-fos protein. Lauderdale's Lab

 
Mouse thymus tissue (E17.5) labelled for alpha-tubulin (green) and ikaros (pink). 400x. Imaged by Krista Ritchie, Manley's LabMouse thymus tissue (E17.5) labelled for alpha-tubulin (green) and ikaros (pink). 400x. Imaged by Krista Ritchie, Manley’s Lab

Mouse thymus tissue (E17.5) labelled for alpha-tubulin (green) and ikaros (pink). 400x. Imaged by Krista Ritchie, Manley's Lab

Trypanosoma cruzi expressing tdTomato red fluorescent protein - amastigotes within host cells. Tarleton's Lab.Trypanosoma cruzi expressing tdTomato red fluorescent protein – amastigotes within host cells. Tarleton’s Lab.

Trypanosoma cruzi expressing tdTomato red fluorescent protein – amastigotes within host cells. Tarleton's Lab.06-Feb-2012 15:20

Trypanosoma cruzi expressing tdTomato red fluorescent protein - amastigotes within host cells. DV I. Imaged by Bustamante, Tarleton’s Lab.Trypanosoma cruzi expressing tdTomato red fluorescent protein – amastigotes within host cells. DV I. Imaged by Bustamante, Tarleton’s Lab.

Trypanosoma cruzi expressing tdTomato red fluorescent protein – amastigotes within host cells. DV I. Imaged by Bustamante, Tarleton’s Lab.09-Feb-2012 11:21

A Tile Scan confocal image of a plant (Convallaria) stem cross section. LSM 710. Imaged by Kandasamy, BMCA Tile Scan confocal image of a plant (Convallaria) stem cross section. LSM 710. Imaged by Kandasamy, BMC

A Tile Scan confocal image of a plant (Convallaria) stem cross section. LSM 710. Imaged by Kandasamy, BMC07-Jan-2013 16:41

A plant (Convallaria) stem section - Confocal image. LSM 510. Imaged by Kandasamy, BMC.A plant (Convallaria) stem section – Confocal image. LSM 510. Imaged by Kandasamy, BMC.

A plant (Convallaria) stem section – Confocal image. LSM 510. Imaged by Kandasamy, BMC.12-Jun-2012 11:47

 
An animal tissue section - Confocal image. LSM 510. Imaged by Kandasamy, BMC.An animal tissue section – Confocal image. LSM 510. Imaged by Kandasamy, BMC.

An animal tissue section – Confocal image. LSM 510. Imaged by Kandasamy, BMC.26-Jul-2012 09:36

A confocal image of developing eggs along with their nurse cells in the ovaries of the parasitic wasp Microplitis demolitor. LSM 710. Imaged by Kandasamy, BMC. Sample, courtesy of Jena Johnson, Strand Lab.A confocal image of developing eggs along with their nurse cells in the ovaries of the parasitic wasp Microplitis demolitor. LSM 710. Imaged by Kandasamy, BMC. Sample, courtesy of Jena Johnson, Strand Lab.

A confocal image of developing eggs along with their nurse cells in the ovaries of the parasitic wasp Microplitis demolitor. LSM 710. Imaged by Kandasamy, BMC. Sample, courtesy of Jena Johnson, Strand Lab.26-Mar-2013 10:23

A picture created from a confocal (LSM 710) image of developing eggs from the ovary of the parasitic wasp Microplitis demolitor. Kandasamy, BMC.A picture created from a confocal (LSM 710) image of developing eggs from the ovary of the parasitic wasp Microplitis demolitor. Kandasamy, BMC.

A picture created from a confocal (LSM 710) image of developing eggs from the ovary of the parasitic wasp Microplitis demolitor. Kandasamy, BMC.01-Apr-2013 15:32

A confocal image of developing eggs from the ovary of the parasitic wasp Microplitis demolitor (green represents actin filaments and pink represents nuclei). LSM 710. Imaged by Kandasamy, BMC.A confocal image of developing eggs from the ovary of the parasitic wasp Microplitis demolitor (green represents actin filaments and pink represents nuclei). LSM 710. Imaged by Kandasamy, BMC.

A confocal image of developing eggs from the ovary of the parasitic wasp Microplitis demolitor (green represents actin filaments and pink represents nuclei). LSM 710. Imaged by Kandasamy, BMC.27-Sep-2013 17:50

A confocal image of developing eggs from the ovary of the parasitic wasp Microplitis demolitor (green represents actin filaments and red represents nuclei). LSM 710. Imaged by Kandasamy, BMC. Slide courtesy of Jena Johnson, Strand lab.A confocal image of developing eggs from the ovary of the parasitic wasp Microplitis demolitor (green represents actin filaments and red represents nuclei). LSM 710. Imaged by Kandasamy, BMC. Slide courtesy of Jena Johnson, Strand lab.

A confocal image of developing eggs from the ovary of the parasitic wasp Microplitis demolitor (green represents actin filaments and red represents nuclei). LSM 710. Imaged by Kandasamy, BMC. Slide courtesy of Jena Johnson, Strand lab.23-Oct-2013 09:30

 
A confocal image of mosquito ovary follicles stained with Hoechst 33342 (green) and Phospho-histone H3 polyclonal antibody (red). LSM 710. Imaged by Kandasamy, BMC. Slide courtesy of Jena Johnson, Brown Lab.A confocal image of mosquito ovary follicles stained with Hoechst 33342 (green) and Phospho-histone H3 polyclonal antibody (red). LSM 710. Imaged by Kandasamy, BMC. Slide courtesy of Jena Johnson, Brown Lab.

A confocal image of mosquito ovary follicles stained with Hoechst 33342 (green) and Phospho-histone H3 polyclonal antibody (red). LSM 710. Imaged by Kandasamy, BMC. Slide courtesy of Jena Johnson, Brown Lab.23-Oct-2013 15:54

An optical section of 3-D cultured MDCK II cells stained for E-cadherin (green), actin (red) and DNA (blue). Image was taken with LSM 710 by Yaping Li, Zhao lab.An optical section of 3-D cultured MDCK II cells stained for E-cadherin (green), actin (red) and DNA (blue). Image was taken with LSM 710 by Yaping Li, Zhao lab.

An optical section of 3-D cultured MDCK II cells stained for E-cadherin (green), actin (red) and DNA (blue). Image was taken with LSM 710 by Yaping Li, Zhao lab.11-Apr-2013 13:16

Mouse kidney section stained with Alexa Fluor 488 wheat germ agglutinin, Alexa Fluor 568 phalloidin and DAPI. LSM 710. Imaged by Kandasamy, BMC.Mouse kidney section stained with Alexa Fluor 488 wheat germ agglutinin, Alexa Fluor 568 phalloidin and DAPI. LSM 710. Imaged by Kandasamy, BMC.

Mouse kidney section stained with Alexa Fluor 488 wheat germ agglutinin, Alexa Fluor 568 phalloidin and DAPI. LSM 710. Imaged by Kandasamy, BMC.12-Apr-2013 13:13

Mouse kidney section stained with Alexa Fluor 488 wheat germ agglutinin, Alexa Fluor 568 phalloidin and DAPI. LSM 710. Imaged by Kandasamy, BMC.Mouse kidney section stained with Alexa Fluor 488 wheat germ agglutinin, Alexa Fluor 568 phalloidin and DAPI. LSM 710. Imaged by Kandasamy, BMC.

Mouse kidney section stained with Alexa Fluor 488 wheat germ agglutinin, Alexa Fluor 568 phalloidin and DAPI. LSM 710. Imaged by Kandasamy, BMC.12-Apr-2013 14:03

A confocal image of wild-type Tetrahymena thermophila cell stained for Tubulin Polyglycylation (green), Centrin (red) and DNA (blue). LSM 710. Imaged by Kandasamy, BMC. Slide courtesy of Mayukh Guha, Gaertig lab.A confocal image of wild-type Tetrahymena thermophila cell stained for Tubulin Polyglycylation (green), Centrin (red) and DNA (blue). LSM 710. Imaged by Kandasamy, BMC. Slide courtesy of Mayukh Guha, Gaertig lab.

A confocal image of wild-type Tetrahymena thermophila cell stained for Tubulin Polyglycylation (green), Centrin (red) and DNA (blue). LSM 710. Imaged by Kandasamy, BMC. Slide courtesy of Mayukh Guha, Gaertig lab.03-May-2013 11:52

 
Wild-type Tetrahymena thermophila cells stained for Tubulin Polyglycylation (green), Centrin (red) and DNA (blue). LSM 710. Imaged by Kandasamy, BMC. Slide courtesy of Mayukh Guha, Gaertig lab.Wild-type Tetrahymena thermophila cells stained for Tubulin Polyglycylation (green), Centrin (red) and DNA (blue). LSM 710. Imaged by Kandasamy, BMC. Slide courtesy of Mayukh Guha, Gaertig lab.

Wild-type Tetrahymena thermophila cells stained for Tubulin Polyglycylation (green), Centrin (red) and DNA (blue). LSM 710. Imaged by Kandasamy, BMC. Slide courtesy of Mayukh Guha, Gaertig lab.03-May-2013 11:06

Adipocytes stained with LipidTox (green) and DAPI (pink). LSM 710. Imaged by Kandasamy, BMC.Adipocytes stained with LipidTox (green) and DAPI (pink). LSM 710. Imaged by Kandasamy, BMC.

Adipocytes stained with LipidTox (green) and DAPI (pink). LSM 710. Imaged by Kandasamy, BMC.14-Oct-2013 16:18

A deconvolved image of human astrogliomas (H4) cells stained for actin (red), DNA (blue, DAPI) and EGFP-HSP27 protein (green). DV I. Imaged by Kandasamy, BMC. Slide courtesy of Parker Evans, Fechheimer lab.A deconvolved image of human astrogliomas (H4) cells stained for actin (red), DNA (blue, DAPI) and EGFP-HSP27 protein (green). DV I. Imaged by Kandasamy, BMC. Slide courtesy of Parker Evans, Fechheimer lab.

A deconvolved image of human astrogliomas (H4) cells stained for actin (red), DNA (blue, DAPI) and EGFP-HSP27 protein (green). DV I. Imaged by Kandasamy, BMC. Slide courtesy of Parker Evans, Fechheimer lab.31-Oct-2013 12:36

Human skin fibroblast cells (CCD-1059Sk) stained for alpha-tubulin (green) and DNA (red). LSM 710. Imaged by Kandasamy, BMC. Slide courtesy of Rupa, Davis lab.Human skin fibroblast cells (CCD-1059Sk) stained for alpha-tubulin (green) and DNA (red). LSM 710. Imaged by Kandasamy, BMC. Slide courtesy of Rupa, Davis lab.

Human skin fibroblast cells (CCD-1059Sk) stained for alpha-tubulin (green) and DNA (red). LSM 710. Imaged by Kandasamy, BMC. Slide courtesy of Rupa, Davis lab.07-Jan-2014 09:43

Human skin fibroblast cells (CCD-1059Sk) stained for alpha-tubulin (red) and DNA (green). LSM 710. Imaged by Kandasamy, BMC. Slide courtesy of Rupa, Davis lab.Human skin fibroblast cells (CCD-1059Sk) stained for alpha-tubulin (red) and DNA (green). LSM 710. Imaged by Kandasamy, BMC. Slide courtesy of Rupa, Davis lab.

Human skin fibroblast cells (CCD-1059Sk) stained for alpha-tubulin (red) and DNA (green). LSM 710. Imaged by Kandasamy, BMC. Slide courtesy of Rupa, Davis lab.07-Jan-2014 10:27

 
A super resolution (SIM) image of bovine pulmonary artery endothelial cells stained for actin filaments (pink), mitochondria (green) and nuclei (yellow). ELYRA S1. Kandasamy, BMC.A super resolution (SIM) image of bovine pulmonary artery endothelial cells stained for actin filaments (pink), mitochondria (green) and nuclei (yellow). ELYRA S1. Kandasamy, BMC.

A super resolution (SIM) image of bovine pulmonary artery endothelial cells stained for actin filaments (pink), mitochondria (green) and nuclei (yellow). ELYRA S1. Kandasamy, BMC.18-Feb-2014 10:29

A super resolution (SIM) image of a pulmonary artery endothelial cell stained for mitochondria (green) and nucleus (red). ELYRA S1. Imaged by Kandasamy, BMC.A super resolution (SIM) image of a pulmonary artery endothelial cell stained for mitochondria (green) and nucleus (red). ELYRA S1. Imaged by Kandasamy, BMC.

A super resolution (SIM) image of a pulmonary artery endothelial cell stained for mitochondria (green) and nucleus (red). ELYRA S1. Imaged by Kandasamy, BMC.23-Oct-2013 15:54

A Tile Scan confocal image of wasp ovary. Red represents actin filaments and green represents nuclei. LSM 710. Imaged by M. Kandasamy, BMC.A Tile Scan confocal image of wasp ovary. Red represents actin filaments and green represents nuclei. LSM 710. Imaged by M. Kandasamy, BMC.

A Tile Scan confocal image of wasp ovary. Red represents actin filaments and green represents nuclei. LSM 710. Imaged by M. Kandasamy, BMC.23-Oct-2013 15:54

A confocal image of a mouse kidney section stained with Alexa Fluor 488 wheat germ agglutinin and Alexa Fluor 568 phalloidin. LSM 710. Imaged by M. Kandasamy, BMC.A confocal image of a mouse kidney section stained with Alexa Fluor 488 wheat germ agglutinin and Alexa Fluor 568 phalloidin. LSM 710. Imaged by M. Kandasamy, BMC.

A confocal image of a mouse kidney section stained with Alexa Fluor 488 wheat germ agglutinin and Alexa Fluor 568 phalloidin. LSM 710. Imaged by M. Kandasamy, BMC.11-Jul-2014 15:09

A confocal image of E13.5 embryonic, sagittal section of a wild-type mouse. The thymus is immunostained with a Foxn1 antibody (red) and the parathyroid is represented by a Gcm2EGFP reporter gene (green). The nuclei are stained with DAPI (blue). Imaged with LSM 710 by Jena Chojnowski, Manley Lab.A confocal image of E13.5 embryonic, sagittal section of a wild-type mouse. The thymus is immunostained with a Foxn1 antibody (red) and the parathyroid is represented by a Gcm2EGFP reporter gene (green). The nuclei are stained with DAPI (blue). Imaged with LSM 710 by Jena Chojnowski, Manley Lab.

A confocal image of E13.5 embryonic, sagittal section of a wild-type mouse. The thymus is immunostained with a Foxn1 antibody (red) and the parathyroid is represented by a Gcm2EGFP reporter gene (green). The nuclei are stained with DAPI (blue). Imaged with LSM 710 by Jena Chojnowski, Manley Lab.18-Aug-2014 11:02

 
A confocal image of an adult, normal human cornea cross-section showing the epithelial layer. The sample was stained with DAPI (blue) and antibodies to canonical Pax6 (red), n-terminus Pax6 (green) and cytokeratin 12 (pink). Imaged with LSM 710 by Jena Chojnowski, Lauderdale's lab.A confocal image of an adult, normal human cornea cross-section showing the epithelial layer. The sample was stained with DAPI (blue) and antibodies to canonical Pax6 (red), n-terminus Pax6 (green) and cytokeratin 12 (pink). Imaged with LSM 710 by Jena Chojnowski, Lauderdale’s lab.

A confocal image of an adult, normal human cornea cross-section showing the epithelial layer. The sample was stained with DAPI (blue) and antibodies to canonical Pax6 (red), n-terminus Pax6 (green) and cytokeratin 12 (pink). Imaged with LSM 710 by Jena Chojnowski, Lauderdale's lab.18-Aug-2014 11:04

Normal dog mammary glands stained for PDEF (pink), SMHC (red), E-cadherin (green) and DNA (blue). Imaged by M. Kandasamy, BMC, with LSM 710. Slide courtesy of Huan Xiong, Zhao lab.Normal dog mammary glands stained for PDEF (pink), SMHC (red), E-cadherin (green) and DNA (blue). Imaged by M. Kandasamy, BMC, with LSM 710. Slide courtesy of Huan Xiong, Zhao lab.

Normal dog mammary glands stained for PDEF (pink), SMHC (red), E-cadherin (green) and DNA (blue). Imaged by M. Kandasamy, BMC, with LSM 710. Slide courtesy of Huan Xiong, Zhao lab.04-Sep-2014 13:37

A super resolution (SIM) image of germinating Aspergillus nidulans spores. Red: Histone H1 tagged to RFP; Green: Septin subunit AspD tagged to GFP. Imaged by M. Kandasamy, BMC. Slide courtesy of Momany lab.A super resolution (SIM) image of germinating Aspergillus nidulans spores. Red: Histone H1 tagged to RFP; Green: Septin subunit AspD tagged to GFP. Imaged by M. Kandasamy, BMC. Slide courtesy of Momany lab.

A super resolution (SIM) image of germinating Aspergillus nidulans spores. Red: Histone H1 tagged to RFP; Green: Septin subunit AspD tagged to GFP. Imaged by M. Kandasamy, BMC. Slide courtesy of Momany lab.28-Oct-2014 10:38

A deconvolved fluorescence microscopy image of germinating Apergillus nidulans spores. Red: Histone H1 tagged to RFP; Green: Septin subunit AspD tagged to GFP. Imaged by M. Kandasamy, BMC. Slide courtesy of Momany lab.A deconvolved fluorescence microscopy image of germinating Apergillus nidulans spores. Red: Histone H1 tagged to RFP; Green: Septin subunit AspD tagged to GFP. Imaged by M. Kandasamy, BMC. Slide courtesy of Momany lab.

A deconvolved fluorescence microscopy image of germinating Apergillus nidulans spores. Red: Histone H1 tagged to RFP; Green: Septin subunit AspD tagged to GFP. Imaged by M. Kandasamy, BMC. Slide courtesy of Momany lab.27-Oct-2014 16:44