bio rad mrc 500 Search Results


scanning confocal laser microscopy (sclm  (Bio-Rad)
90
Bio-Rad scanning confocal laser microscopy (sclm
(A) Photograph of a piece of old, dried, consolidated hydrozincite with dark spots, with cyanobacterium Scytonema sp. in a dormant state. Bar, 0.5 cm. (B) The same piece of hydrozincite after a period of incubation in BG-11 medium (diluted 1:10) under dim light, clearly showing growth of Scytonema sp., which was entrapped in the hydrozincite matrix and which forms blue-green filaments. Bar, 0.5 cm. (C) In the transmission mode the Scytonema sp. clearly grows out of the hydrozincite tubing. A thick-wall heterocyst (short arrow) is clearly visible. Bar, 12, μm. (D) The same image by <t>SCLM</t> shows single autofluorescent cells of a Scytonema sp. Autofluorescence is due to chlorophyll a encapsulated in the sheath. Where the heterocyst occurs (short arrow), no autofluorescence appears, since the photosynthetic apparatus is degenerated. Moreover, hydrozincite <t>emits</t> <t>fluorescence</t> (long arrow). Bar, 12 μm. (F) Coculture of Scytonema sp. and the microalga Chlorella sp. The cyanobacterium shows filaments of different diameters. Bar, 12 μm. (G) The same image taken by SCLM (the sheath of the Scytonema sp. becomes empty and wide with aging and autofluorescence [arrow]). Bar, 12 μm.
Scanning Confocal Laser Microscopy (Sclm, supplied by Bio-Rad, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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confocal laser scan microscope  (Bio-Rad)
93
Bio-Rad confocal laser scan microscope
(A) Photograph of a piece of old, dried, consolidated hydrozincite with dark spots, with cyanobacterium Scytonema sp. in a dormant state. Bar, 0.5 cm. (B) The same piece of hydrozincite after a period of incubation in BG-11 medium (diluted 1:10) under dim light, clearly showing growth of Scytonema sp., which was entrapped in the hydrozincite matrix and which forms blue-green filaments. Bar, 0.5 cm. (C) In the transmission mode the Scytonema sp. clearly grows out of the hydrozincite tubing. A thick-wall heterocyst (short arrow) is clearly visible. Bar, 12, μm. (D) The same image by <t>SCLM</t> shows single autofluorescent cells of a Scytonema sp. Autofluorescence is due to chlorophyll a encapsulated in the sheath. Where the heterocyst occurs (short arrow), no autofluorescence appears, since the photosynthetic apparatus is degenerated. Moreover, hydrozincite <t>emits</t> <t>fluorescence</t> (long arrow). Bar, 12 μm. (F) Coculture of Scytonema sp. and the microalga Chlorella sp. The cyanobacterium shows filaments of different diameters. Bar, 12 μm. (G) The same image taken by SCLM (the sheath of the Scytonema sp. becomes empty and wide with aging and autofluorescence [arrow]). Bar, 12 μm.
Confocal Laser Scan Microscope, supplied by Bio-Rad, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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bio rad slow scan mrc 500 apparatus  (Bio-Rad)
99
Bio-Rad bio rad slow scan mrc 500 apparatus
(A) Photograph of a piece of old, dried, consolidated hydrozincite with dark spots, with cyanobacterium Scytonema sp. in a dormant state. Bar, 0.5 cm. (B) The same piece of hydrozincite after a period of incubation in BG-11 medium (diluted 1:10) under dim light, clearly showing growth of Scytonema sp., which was entrapped in the hydrozincite matrix and which forms blue-green filaments. Bar, 0.5 cm. (C) In the transmission mode the Scytonema sp. clearly grows out of the hydrozincite tubing. A thick-wall heterocyst (short arrow) is clearly visible. Bar, 12, μm. (D) The same image by <t>SCLM</t> shows single autofluorescent cells of a Scytonema sp. Autofluorescence is due to chlorophyll a encapsulated in the sheath. Where the heterocyst occurs (short arrow), no autofluorescence appears, since the photosynthetic apparatus is degenerated. Moreover, hydrozincite <t>emits</t> <t>fluorescence</t> (long arrow). Bar, 12 μm. (F) Coculture of Scytonema sp. and the microalga Chlorella sp. The cyanobacterium shows filaments of different diameters. Bar, 12 μm. (G) The same image taken by SCLM (the sheath of the Scytonema sp. becomes empty and wide with aging and autofluorescence [arrow]). Bar, 12 μm.
Bio Rad Slow Scan Mrc 500 Apparatus, supplied by Bio-Rad, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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anti-complement receptor type 3 antibody  (Bio-Rad)
90
Bio-Rad anti-complement receptor type 3 antibody
(A) Photograph of a piece of old, dried, consolidated hydrozincite with dark spots, with cyanobacterium Scytonema sp. in a dormant state. Bar, 0.5 cm. (B) The same piece of hydrozincite after a period of incubation in BG-11 medium (diluted 1:10) under dim light, clearly showing growth of Scytonema sp., which was entrapped in the hydrozincite matrix and which forms blue-green filaments. Bar, 0.5 cm. (C) In the transmission mode the Scytonema sp. clearly grows out of the hydrozincite tubing. A thick-wall heterocyst (short arrow) is clearly visible. Bar, 12, μm. (D) The same image by <t>SCLM</t> shows single autofluorescent cells of a Scytonema sp. Autofluorescence is due to chlorophyll a encapsulated in the sheath. Where the heterocyst occurs (short arrow), no autofluorescence appears, since the photosynthetic apparatus is degenerated. Moreover, hydrozincite <t>emits</t> <t>fluorescence</t> (long arrow). Bar, 12 μm. (F) Coculture of Scytonema sp. and the microalga Chlorella sp. The cyanobacterium shows filaments of different diameters. Bar, 12 μm. (G) The same image taken by SCLM (the sheath of the Scytonema sp. becomes empty and wide with aging and autofluorescence [arrow]). Bar, 12 μm.
Anti Complement Receptor Type 3 Antibody, supplied by Bio-Rad, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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laser scanning confocal microscope nikon optiphoto  (Nikon)
90
Nikon laser scanning confocal microscope nikon optiphoto
(A) Photograph of a piece of old, dried, consolidated hydrozincite with dark spots, with cyanobacterium Scytonema sp. in a dormant state. Bar, 0.5 cm. (B) The same piece of hydrozincite after a period of incubation in BG-11 medium (diluted 1:10) under dim light, clearly showing growth of Scytonema sp., which was entrapped in the hydrozincite matrix and which forms blue-green filaments. Bar, 0.5 cm. (C) In the transmission mode the Scytonema sp. clearly grows out of the hydrozincite tubing. A thick-wall heterocyst (short arrow) is clearly visible. Bar, 12, μm. (D) The same image by <t>SCLM</t> shows single autofluorescent cells of a Scytonema sp. Autofluorescence is due to chlorophyll a encapsulated in the sheath. Where the heterocyst occurs (short arrow), no autofluorescence appears, since the photosynthetic apparatus is degenerated. Moreover, hydrozincite <t>emits</t> <t>fluorescence</t> (long arrow). Bar, 12 μm. (F) Coculture of Scytonema sp. and the microalga Chlorella sp. The cyanobacterium shows filaments of different diameters. Bar, 12 μm. (G) The same image taken by SCLM (the sheath of the Scytonema sp. becomes empty and wide with aging and autofluorescence [arrow]). Bar, 12 μm.
Laser Scanning Confocal Microscope Nikon Optiphoto, 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
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510 meta upright laser scanning microscope  (Carl Zeiss)
90
Carl Zeiss 510 meta upright laser scanning microscope
(A) Photograph of a piece of old, dried, consolidated hydrozincite with dark spots, with cyanobacterium Scytonema sp. in a dormant state. Bar, 0.5 cm. (B) The same piece of hydrozincite after a period of incubation in BG-11 medium (diluted 1:10) under dim light, clearly showing growth of Scytonema sp., which was entrapped in the hydrozincite matrix and which forms blue-green filaments. Bar, 0.5 cm. (C) In the transmission mode the Scytonema sp. clearly grows out of the hydrozincite tubing. A thick-wall heterocyst (short arrow) is clearly visible. Bar, 12, μm. (D) The same image by <t>SCLM</t> shows single autofluorescent cells of a Scytonema sp. Autofluorescence is due to chlorophyll a encapsulated in the sheath. Where the heterocyst occurs (short arrow), no autofluorescence appears, since the photosynthetic apparatus is degenerated. Moreover, hydrozincite <t>emits</t> <t>fluorescence</t> (long arrow). Bar, 12 μm. (F) Coculture of Scytonema sp. and the microalga Chlorella sp. The cyanobacterium shows filaments of different diameters. Bar, 12 μm. (G) The same image taken by SCLM (the sheath of the Scytonema sp. becomes empty and wide with aging and autofluorescence [arrow]). Bar, 12 μm.
510 Meta Upright Laser Scanning Microscope, supplied by Carl Zeiss, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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clsm analysis a bio rad mrc 500 confocal laser scanning microscope  (Bio-Rad)
96
Bio-Rad clsm analysis a bio rad mrc 500 confocal laser scanning microscope
(A) Photograph of a piece of old, dried, consolidated hydrozincite with dark spots, with cyanobacterium Scytonema sp. in a dormant state. Bar, 0.5 cm. (B) The same piece of hydrozincite after a period of incubation in BG-11 medium (diluted 1:10) under dim light, clearly showing growth of Scytonema sp., which was entrapped in the hydrozincite matrix and which forms blue-green filaments. Bar, 0.5 cm. (C) In the transmission mode the Scytonema sp. clearly grows out of the hydrozincite tubing. A thick-wall heterocyst (short arrow) is clearly visible. Bar, 12, μm. (D) The same image by <t>SCLM</t> shows single autofluorescent cells of a Scytonema sp. Autofluorescence is due to chlorophyll a encapsulated in the sheath. Where the heterocyst occurs (short arrow), no autofluorescence appears, since the photosynthetic apparatus is degenerated. Moreover, hydrozincite <t>emits</t> <t>fluorescence</t> (long arrow). Bar, 12 μm. (F) Coculture of Scytonema sp. and the microalga Chlorella sp. The cyanobacterium shows filaments of different diameters. Bar, 12 μm. (G) The same image taken by SCLM (the sheath of the Scytonema sp. becomes empty and wide with aging and autofluorescence [arrow]). Bar, 12 μm.
Clsm Analysis A Bio Rad Mrc 500 Confocal Laser Scanning Microscope, supplied by Bio-Rad, used in various techniques. Bioz Stars score: 96/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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conectado ao equipamento banjo e ih 500  (Bio-Rad)
95
Bio-Rad conectado ao equipamento banjo e ih 500
(A) Photograph of a piece of old, dried, consolidated hydrozincite with dark spots, with cyanobacterium Scytonema sp. in a dormant state. Bar, 0.5 cm. (B) The same piece of hydrozincite after a period of incubation in BG-11 medium (diluted 1:10) under dim light, clearly showing growth of Scytonema sp., which was entrapped in the hydrozincite matrix and which forms blue-green filaments. Bar, 0.5 cm. (C) In the transmission mode the Scytonema sp. clearly grows out of the hydrozincite tubing. A thick-wall heterocyst (short arrow) is clearly visible. Bar, 12, μm. (D) The same image by <t>SCLM</t> shows single autofluorescent cells of a Scytonema sp. Autofluorescence is due to chlorophyll a encapsulated in the sheath. Where the heterocyst occurs (short arrow), no autofluorescence appears, since the photosynthetic apparatus is degenerated. Moreover, hydrozincite <t>emits</t> <t>fluorescence</t> (long arrow). Bar, 12 μm. (F) Coculture of Scytonema sp. and the microalga Chlorella sp. The cyanobacterium shows filaments of different diameters. Bar, 12 μm. (G) The same image taken by SCLM (the sheath of the Scytonema sp. becomes empty and wide with aging and autofluorescence [arrow]). Bar, 12 μm.
Conectado Ao Equipamento Banjo E Ih 500, supplied by Bio-Rad, used in various techniques. Bioz Stars score: 95/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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hydroxylapatite htp  (Bio-Rad)
90
Bio-Rad hydroxylapatite htp
(A) Photograph of a piece of old, dried, consolidated hydrozincite with dark spots, with cyanobacterium Scytonema sp. in a dormant state. Bar, 0.5 cm. (B) The same piece of hydrozincite after a period of incubation in BG-11 medium (diluted 1:10) under dim light, clearly showing growth of Scytonema sp., which was entrapped in the hydrozincite matrix and which forms blue-green filaments. Bar, 0.5 cm. (C) In the transmission mode the Scytonema sp. clearly grows out of the hydrozincite tubing. A thick-wall heterocyst (short arrow) is clearly visible. Bar, 12, μm. (D) The same image by <t>SCLM</t> shows single autofluorescent cells of a Scytonema sp. Autofluorescence is due to chlorophyll a encapsulated in the sheath. Where the heterocyst occurs (short arrow), no autofluorescence appears, since the photosynthetic apparatus is degenerated. Moreover, hydrozincite <t>emits</t> <t>fluorescence</t> (long arrow). Bar, 12 μm. (F) Coculture of Scytonema sp. and the microalga Chlorella sp. The cyanobacterium shows filaments of different diameters. Bar, 12 μm. (G) The same image taken by SCLM (the sheath of the Scytonema sp. becomes empty and wide with aging and autofluorescence [arrow]). Bar, 12 μm.
Hydroxylapatite Htp, supplied by Bio-Rad, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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hydroxylapatite  (Bio-Rad)
90
Bio-Rad hydroxylapatite
(A) Photograph of a piece of old, dried, consolidated hydrozincite with dark spots, with cyanobacterium Scytonema sp. in a dormant state. Bar, 0.5 cm. (B) The same piece of hydrozincite after a period of incubation in BG-11 medium (diluted 1:10) under dim light, clearly showing growth of Scytonema sp., which was entrapped in the hydrozincite matrix and which forms blue-green filaments. Bar, 0.5 cm. (C) In the transmission mode the Scytonema sp. clearly grows out of the hydrozincite tubing. A thick-wall heterocyst (short arrow) is clearly visible. Bar, 12, μm. (D) The same image by <t>SCLM</t> shows single autofluorescent cells of a Scytonema sp. Autofluorescence is due to chlorophyll a encapsulated in the sheath. Where the heterocyst occurs (short arrow), no autofluorescence appears, since the photosynthetic apparatus is degenerated. Moreover, hydrozincite <t>emits</t> <t>fluorescence</t> (long arrow). Bar, 12 μm. (F) Coculture of Scytonema sp. and the microalga Chlorella sp. The cyanobacterium shows filaments of different diameters. Bar, 12 μm. (G) The same image taken by SCLM (the sheath of the Scytonema sp. becomes empty and wide with aging and autofluorescence [arrow]). Bar, 12 μm.
Hydroxylapatite, supplied by Bio-Rad, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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gene pulser xcell electroporator  (Bio-Rad)
97
Bio-Rad gene pulser xcell electroporator
(A) Photograph of a piece of old, dried, consolidated hydrozincite with dark spots, with cyanobacterium Scytonema sp. in a dormant state. Bar, 0.5 cm. (B) The same piece of hydrozincite after a period of incubation in BG-11 medium (diluted 1:10) under dim light, clearly showing growth of Scytonema sp., which was entrapped in the hydrozincite matrix and which forms blue-green filaments. Bar, 0.5 cm. (C) In the transmission mode the Scytonema sp. clearly grows out of the hydrozincite tubing. A thick-wall heterocyst (short arrow) is clearly visible. Bar, 12, μm. (D) The same image by <t>SCLM</t> shows single autofluorescent cells of a Scytonema sp. Autofluorescence is due to chlorophyll a encapsulated in the sheath. Where the heterocyst occurs (short arrow), no autofluorescence appears, since the photosynthetic apparatus is degenerated. Moreover, hydrozincite <t>emits</t> <t>fluorescence</t> (long arrow). Bar, 12 μm. (F) Coculture of Scytonema sp. and the microalga Chlorella sp. The cyanobacterium shows filaments of different diameters. Bar, 12 μm. (G) The same image taken by SCLM (the sheath of the Scytonema sp. becomes empty and wide with aging and autofluorescence [arrow]). Bar, 12 μm.
Gene Pulser Xcell Electroporator, supplied by Bio-Rad, used in various techniques. Bioz Stars score: 97/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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bovine serum albumin bsa standards  (Bio-Rad)
98
Bio-Rad bovine serum albumin bsa standards
(A) Photograph of a piece of old, dried, consolidated hydrozincite with dark spots, with cyanobacterium Scytonema sp. in a dormant state. Bar, 0.5 cm. (B) The same piece of hydrozincite after a period of incubation in BG-11 medium (diluted 1:10) under dim light, clearly showing growth of Scytonema sp., which was entrapped in the hydrozincite matrix and which forms blue-green filaments. Bar, 0.5 cm. (C) In the transmission mode the Scytonema sp. clearly grows out of the hydrozincite tubing. A thick-wall heterocyst (short arrow) is clearly visible. Bar, 12, μm. (D) The same image by <t>SCLM</t> shows single autofluorescent cells of a Scytonema sp. Autofluorescence is due to chlorophyll a encapsulated in the sheath. Where the heterocyst occurs (short arrow), no autofluorescence appears, since the photosynthetic apparatus is degenerated. Moreover, hydrozincite <t>emits</t> <t>fluorescence</t> (long arrow). Bar, 12 μm. (F) Coculture of Scytonema sp. and the microalga Chlorella sp. The cyanobacterium shows filaments of different diameters. Bar, 12 μm. (G) The same image taken by SCLM (the sheath of the Scytonema sp. becomes empty and wide with aging and autofluorescence [arrow]). Bar, 12 μm.
Bovine Serum Albumin Bsa Standards, supplied by Bio-Rad, used in various techniques. Bioz Stars score: 98/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Image Search Results


(A) Photograph of a piece of old, dried, consolidated hydrozincite with dark spots, with cyanobacterium Scytonema sp. in a dormant state. Bar, 0.5 cm. (B) The same piece of hydrozincite after a period of incubation in BG-11 medium (diluted 1:10) under dim light, clearly showing growth of Scytonema sp., which was entrapped in the hydrozincite matrix and which forms blue-green filaments. Bar, 0.5 cm. (C) In the transmission mode the Scytonema sp. clearly grows out of the hydrozincite tubing. A thick-wall heterocyst (short arrow) is clearly visible. Bar, 12, μm. (D) The same image by SCLM shows single autofluorescent cells of a Scytonema sp. Autofluorescence is due to chlorophyll a encapsulated in the sheath. Where the heterocyst occurs (short arrow), no autofluorescence appears, since the photosynthetic apparatus is degenerated. Moreover, hydrozincite emits fluorescence (long arrow). Bar, 12 μm. (F) Coculture of Scytonema sp. and the microalga Chlorella sp. The cyanobacterium shows filaments of different diameters. Bar, 12 μm. (G) The same image taken by SCLM (the sheath of the Scytonema sp. becomes empty and wide with aging and autofluorescence [arrow]). Bar, 12 μm.

Journal:

Article Title: Heavy Metal Coprecipitation with Hydrozincite [Zn 5 (CO 3 ) 2 (OH) 6 ] from Mine Waters Caused by Photosynthetic Microorganisms

doi:

Figure Lengend Snippet: (A) Photograph of a piece of old, dried, consolidated hydrozincite with dark spots, with cyanobacterium Scytonema sp. in a dormant state. Bar, 0.5 cm. (B) The same piece of hydrozincite after a period of incubation in BG-11 medium (diluted 1:10) under dim light, clearly showing growth of Scytonema sp., which was entrapped in the hydrozincite matrix and which forms blue-green filaments. Bar, 0.5 cm. (C) In the transmission mode the Scytonema sp. clearly grows out of the hydrozincite tubing. A thick-wall heterocyst (short arrow) is clearly visible. Bar, 12, μm. (D) The same image by SCLM shows single autofluorescent cells of a Scytonema sp. Autofluorescence is due to chlorophyll a encapsulated in the sheath. Where the heterocyst occurs (short arrow), no autofluorescence appears, since the photosynthetic apparatus is degenerated. Moreover, hydrozincite emits fluorescence (long arrow). Bar, 12 μm. (F) Coculture of Scytonema sp. and the microalga Chlorella sp. The cyanobacterium shows filaments of different diameters. Bar, 12 μm. (G) The same image taken by SCLM (the sheath of the Scytonema sp. becomes empty and wide with aging and autofluorescence [arrow]). Bar, 12 μm.

Article Snippet: The white solid specimen was soaked in sterile buffered water and then observed without any treatment under light transmission and in fluorescence modes with scanning confocal laser microscopy (SCLM) (Bio-Rad Microscience Division; model MRC-500); the microscope was equipped with a krypton-argon laser, with maximum emission at 488 nm.

Techniques: Incubation, Transmission Assay, Fluorescence