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Pantherophis guttatus, two headed snakePantherophis guttatus, two headed snakePantherophis guttatus, two headed snake© Matthijs Kuijpers / BiosphotoJPG - RMNon exclusive sale
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2124772

Pantherophis guttatus, two headed snake

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Axolotl (Ambystoma mexicanum)Axolotl (Ambystoma mexicanum)Axolotl (Ambystoma mexicanum)© Matthijs Kuijpers / BiosphotoJPG - RMNon exclusive sale
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2078370

Axolotl (Ambystoma mexicanum)

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Green iguana blue form on white background ; Native to central AmericaGreen iguana blue form on white backgroundGreen iguana blue form on white background ; Native to central America© Michel Gunther / BiosphotoJPG - RM

1988374

Green iguana blue form on white background ; Native to central

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Portrait of Green iguana blue form on white background ; Native to central AmericaPortrait of Green iguana blue form on white backgroundPortrait of Green iguana blue form on white background ; Native to central America© Michel Gunther / BiosphotoJPG - RM

1988372

Portrait of Green iguana blue form on white background ; Native

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Blue Tree frog on a reedBlue Tree frog on a reedBlue Tree frog on a reed© André Simon / BiosphotoJPG - RM

582303

Blue Tree frog on a reed

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Albino red-footed tortoise (Chelonoidis carbonarius).Albino red-footed tortoise (Chelonoidis carbonarius).Albino red-footed tortoise (Chelonoidis carbonarius).© Matthijs Kuijpers / BiosphotoJPG - RMNon exclusive sale
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2448186

Albino red-footed tortoise (Chelonoidis carbonarius).

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Albino water monitor (Varanus salvator)Albino water monitor (Varanus salvator)Albino water monitor (Varanus salvator)© Matthijs Kuijpers / BiosphotoJPG - RMNon exclusive sale
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2433286

Albino water monitor (Varanus salvator)

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Ball python (Python regius) piebaldBall python (Python regius) piebaldBall python (Python regius) piebald© Matthijs Kuijpers / BiosphotoJPG - RMNon exclusive sale
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Ball python (Python regius) piebald

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western diamondback rattlesnake (Crotalus atrox) albinowestern diamondback rattlesnake (Crotalus atrox) albinowestern diamondback rattlesnake (Crotalus atrox) albino© Matthijs Kuijpers / BiosphotoJPG - RMNon exclusive sale
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2415441

western diamondback rattlesnake (Crotalus atrox) albino

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Leopard gecko (Eublepharis macularius) "Black knight"Leopard gecko (Eublepharis macularius) "Black knight"Leopard gecko (Eublepharis macularius) "Black knight"© Matthijs Kuijpers / BiosphotoJPG - RMNon exclusive sale
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2411874

Leopard gecko (Eublepharis macularius) "Black knight"

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Albino Iguana. Albinism is an absence of pigmentation or coloration that can have some spectacular results. A rare albino green iguana (Iguana iguana)Albino Iguana. Albinism is an absence of pigmentation or coloration that can have some spectacular results. A rare albino green iguana (Iguana iguana)Albino Iguana. Albinism is an absence of pigmentation or coloration that can have some spectacular results. A rare albino green iguana (Iguana iguana)© Matthijs Kuijpers / BiosphotoJPG - RMNon exclusive sale
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2410548

Albino Iguana. Albinism is an absence of pigmentation or

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Red Crystal shrimp (Caridina logemanni), Taiwan Bee Smiley ShrimpRed Crystal shrimp (Caridina logemanni), Taiwan Bee Smiley ShrimpRed Crystal shrimp (Caridina logemanni), Taiwan Bee Smiley Shrimp© Bruno Cavignaux / BiosphotoJPG - RM

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Red Crystal shrimp (Caridina logemanni), Taiwan Bee Smiley Shrimp

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Red Crystal shrimp (Caridina logemanni), Taiwan Bee Red Panda ShrimpRed Crystal shrimp (Caridina logemanni), Taiwan Bee Red Panda ShrimpRed Crystal shrimp (Caridina logemanni), Taiwan Bee Red Panda Shrimp© Bruno Cavignaux / BiosphotoJPG - RM

2406424

Red Crystal shrimp (Caridina logemanni), Taiwan Bee Red Panda

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Red Crystal shrimp (Caridina logemanni), Red Wine ShrimpRed Crystal shrimp (Caridina logemanni), Red Wine ShrimpRed Crystal shrimp (Caridina logemanni), Red Wine Shrimp© Bruno Cavignaux / BiosphotoJPG - RM

2406423

Red Crystal shrimp (Caridina logemanni), Red Wine Shrimp

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Red Crystal shrimp (Caridina logemanni), Taiwan Bee Black Panda ShrimpRed Crystal shrimp (Caridina logemanni), Taiwan Bee Black Panda ShrimpRed Crystal shrimp (Caridina logemanni), Taiwan Bee Black Panda Shrimp© Bruno Cavignaux / BiosphotoJPG - RM

2406418

Red Crystal shrimp (Caridina logemanni), Taiwan Bee Black Panda

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Red Crystal shrimp (Caridina logemanni), Bee Mosura ShrimpRed Crystal shrimp (Caridina logemanni), Bee Mosura ShrimpRed Crystal shrimp (Caridina logemanni), Bee Mosura Shrimp© Bruno Cavignaux / BiosphotoJPG - RM

2406417

Red Crystal shrimp (Caridina logemanni), Bee Mosura Shrimp

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Panda shrimp (Caridina logemanni), Taiwan Bee Black Panda ShrimpPanda shrimp (Caridina logemanni), Taiwan Bee Black Panda ShrimpPanda shrimp (Caridina logemanni), Taiwan Bee Black Panda Shrimp© Bruno Cavignaux / BiosphotoJPG - RM

2406416

Panda shrimp (Caridina logemanni), Taiwan Bee Black Panda Shrimp

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Red Crystal shrimp (Caridina logemanni), Bee Mosura ShrimpRed Crystal shrimp (Caridina logemanni), Bee Mosura ShrimpRed Crystal shrimp (Caridina logemanni), Bee Mosura Shrimp© Bruno Cavignaux / BiosphotoJPG - RM

2406415

Red Crystal shrimp (Caridina logemanni), Bee Mosura Shrimp

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Zebrafish, Danio rerio. Veil fin variety above and regular stripes bellow. Since the 1930s, zebra fish have been a model organism for studying human diseases. The fertilized eggs, embryos, and fry are transparent, allowing scientists to easily observe and study topics such as tumor growth, brain tissue development, and blood vessel growth. PortugalZebrafish, Danio rerio. Veil fin variety above and regular stripes bellow. Since the 1930s, zebra fish have been a model organism for studying human diseases. The fertilized eggs, embryos, and fry are transparent, allowing scientists to easily observe and study topics such as tumor growth, brain tissue development, and blood vessel growth. PortugalZebrafish, Danio rerio. Veil fin variety above and regular stripes bellow. Since the 1930s, zebra fish have been a model organism for studying human diseases. The fertilized eggs, embryos, and fry are transparent, allowing scientists to easily observe and study topics such as tumor growth, brain tissue development, and blood vessel growth. Portugal© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2405139

Zebrafish, Danio rerio. Veil fin variety above and regular

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Zebrafish (Danio rerio), fry on aquarium. Since the 1930s, zebra fish have been a model organism for studying human diseases. The fertilized eggs, embryos, and fry are transparent, allowing scientists to easily observe and study topics such as tumor growth, brain tissue development, and blood vessel growth. PortugalZebrafish (Danio rerio), fry on aquarium. Since the 1930s, zebra fish have been a model organism for studying human diseases. The fertilized eggs, embryos, and fry are transparent, allowing scientists to easily observe and study topics such as tumor growth, brain tissue development, and blood vessel growth. PortugalZebrafish (Danio rerio), fry on aquarium. Since the 1930s, zebra fish have been a model organism for studying human diseases. The fertilized eggs, embryos, and fry are transparent, allowing scientists to easily observe and study topics such as tumor growth, brain tissue development, and blood vessel growth. Portugal© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2405137

Zebrafish (Danio rerio), fry on aquarium. Since the 1930s, zebra

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Newborn Zebrafish (Danio rerio). Zebrafish are used to identify a new gene responsible for promoting melanoma on humans. Melanocytes, the same cells that are are responsible for the pigmentation of zebrafish stripes and for human skin color, are also where melanoma originates. Researchers have now used zebrafish to identify a new gene responsible for promoting melanoma. FranceNewborn Zebrafish (Danio rerio). Zebrafish are used to identify a new gene responsible for promoting melanoma on humans. Melanocytes, the same cells that are are responsible for the pigmentation of zebrafish stripes and for human skin color, are also where melanoma originates. Researchers have now used zebrafish to identify a new gene responsible for promoting melanoma. FranceNewborn Zebrafish (Danio rerio). Zebrafish are used to identify a new gene responsible for promoting melanoma on humans. Melanocytes, the same cells that are are responsible for the pigmentation of zebrafish stripes and for human skin color, are also where melanoma originates. Researchers have now used zebrafish to identify a new gene responsible for promoting melanoma. France© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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Newborn Zebrafish (Danio rerio). Zebrafish are used to identify a

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Zebrafish (Danio rerio), used on cancer research. The use of human oncogenes, often in conjunction with fluorescent reporters to aid the monitoring of tumor initiation and progression, and the isolation and in vivo imaging of cancer cells, demonstrated the cross-species ability of oncogenes to transform zebrafish cells. Similar cancer experiments have been made with mice, but the zebrafish approach may be faster and cheaper, making it accessible for more patients. Cancer research. FranceZebrafish (Danio rerio), used on cancer research. The use of human oncogenes, often in conjunction with fluorescent reporters to aid the monitoring of tumor initiation and progression, and the isolation and in vivo imaging of cancer cells, demonstrated the cross-species ability of oncogenes to transform zebrafish cells. Similar cancer experiments have been made with mice, but the zebrafish approach may be faster and cheaper, making it accessible for more patients. Cancer research. FranceZebrafish (Danio rerio), used on cancer research. The use of human oncogenes, often in conjunction with fluorescent reporters to aid the monitoring of tumor initiation and progression, and the isolation and in vivo imaging of cancer cells, demonstrated the cross-species ability of oncogenes to transform zebrafish cells. Similar cancer experiments have been made with mice, but the zebrafish approach may be faster and cheaper, making it accessible for more patients. Cancer research. France© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2405135

Zebrafish (Danio rerio), used on cancer research. The use of

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Zebrafish (Danio rerio). Stripe form (above) Casper fish form (bellow). Casper fish are the result of a cross between 2 mutant zebra fish. Since 1930 zebra fish are used to study the development of cancer in vivo. The fertilized eggs, embryos, and fry are transparent, allowing scientists to easily observe and study topics such as tumor growth, brain tissue development, and blood vessel growth. However, after a few weeks, transparency declines as their bodies become opaque, limiting the research window for scientists. In response, researchers began crossbreeding specific genetic strains of zebra fish to produce a transparent fish. After a year, they developed the "Casper Fish", which lacks pigment in its skin and scales, and therefore is transparent. The Casper Fish’s transparency allowed researchers to extend their research into the adult stage of this model organism. USAZebrafish (Danio rerio). Stripe form (above) Casper fish form (bellow). Casper fish are the result of a cross between 2 mutant zebra fish. Since 1930 zebra fish are used to study the development of cancer in vivo. The fertilized eggs, embryos, and fry are transparent, allowing scientists to easily observe and study topics such as tumor growth, brain tissue development, and blood vessel growth. However, after a few weeks, transparency declines as their bodies become opaque, limiting the research window for scientists. In response, researchers began crossbreeding specific genetic strains of zebra fish to produce a transparent fish. After a year, they developed the "Casper Fish", which lacks pigment in its skin and scales, and therefore is transparent. The Casper Fish’s transparency allowed researchers to extend their research into the adult stage of this model organism. USAZebrafish (Danio rerio). Stripe form (above) Casper fish form (bellow). Casper fish are the result of a cross between 2 mutant zebra fish. Since 1930 zebra fish are used to study the development of cancer in vivo. The fertilized eggs, embryos, and fry are transparent, allowing scientists to easily observe and study topics such as tumor growth, brain tissue development, and blood vessel growth. However, after a few weeks, transparency declines as their bodies become opaque, limiting the research window for scientists. In response, researchers began crossbreeding specific genetic strains of zebra fish to produce a transparent fish. After a year, they developed the "Casper Fish", which lacks pigment in its skin and scales, and therefore is transparent. The Casper Fish’s transparency allowed researchers to extend their research into the adult stage of this model organism. USA© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2405134

Zebrafish (Danio rerio). Stripe form (above) Casper fish form

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GloFish Zebrafish (Danio rerio), in diverse color versions. Although not originally developed for the ornamental fish trade, it is one of the first genetically modified animals to become publicly available. These fluorescent fishes were developed with a gene that encodes the green fluorescent protein from a jellyfish. The gene was inserted into a zebrafish embryo, allowing it to integrate into the zebrafish's genome, which caused the fish to be brightly fluorescent under both natural white light and ultraviolet light. Their goal was to develop a fish that could detect pollution by selectively fluorescing in the presence of environmental toxins. USAGloFish Zebrafish (Danio rerio), in diverse color versions. Although not originally developed for the ornamental fish trade, it is one of the first genetically modified animals to become publicly available. These fluorescent fishes were developed with a gene that encodes the green fluorescent protein from a jellyfish. The gene was inserted into a zebrafish embryo, allowing it to integrate into the zebrafish's genome, which caused the fish to be brightly fluorescent under both natural white light and ultraviolet light. Their goal was to develop a fish that could detect pollution by selectively fluorescing in the presence of environmental toxins. USAGloFish Zebrafish (Danio rerio), in diverse color versions. Although not originally developed for the ornamental fish trade, it is one of the first genetically modified animals to become publicly available. These fluorescent fishes were developed with a gene that encodes the green fluorescent protein from a jellyfish. The gene was inserted into a zebrafish embryo, allowing it to integrate into the zebrafish's genome, which caused the fish to be brightly fluorescent under both natural white light and ultraviolet light. Their goal was to develop a fish that could detect pollution by selectively fluorescing in the presence of environmental toxins. USA© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2405133

GloFish Zebrafish (Danio rerio), in diverse color versions.

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GloFish Zebrafish (Danio rerio), red and yellow versions. Although not originally developed for the ornamental fish trade, it is one of the first genetically modified animals to become publicly available. These fluorescent fishes were developed with a gene that encodes the green fluorescent protein from a jellyfish. The gene was inserted into a zebrafish embryo, allowing it to integrate into the zebrafish's genome, which caused the fish to be brightly fluorescent under both natural white light and ultraviolet light. Their goal was to develop a fish that could detect pollution by selectively fluorescing in the presence of environmental toxins. USAGloFish Zebrafish (Danio rerio), red and yellow versions. Although not originally developed for the ornamental fish trade, it is one of the first genetically modified animals to become publicly available. These fluorescent fishes were developed with a gene that encodes the green fluorescent protein from a jellyfish. The gene was inserted into a zebrafish embryo, allowing it to integrate into the zebrafish's genome, which caused the fish to be brightly fluorescent under both natural white light and ultraviolet light. Their goal was to develop a fish that could detect pollution by selectively fluorescing in the presence of environmental toxins. USAGloFish Zebrafish (Danio rerio), red and yellow versions. Although not originally developed for the ornamental fish trade, it is one of the first genetically modified animals to become publicly available. These fluorescent fishes were developed with a gene that encodes the green fluorescent protein from a jellyfish. The gene was inserted into a zebrafish embryo, allowing it to integrate into the zebrafish's genome, which caused the fish to be brightly fluorescent under both natural white light and ultraviolet light. Their goal was to develop a fish that could detect pollution by selectively fluorescing in the presence of environmental toxins. USA© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2405132

GloFish Zebrafish (Danio rerio), red and yellow versions.

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GloFish Zebrafish (Danio rerio), red and blue versions. Although not originally developed for the ornamental fish trade, it is one of the first genetically modified animals to become publicly available. These fluorescent fishes were developed with a gene that encodes the green fluorescent protein from a jellyfish. The gene was inserted into a zebrafish embryo, allowing it to integrate into the zebrafish's genome, which caused the fish to be brightly fluorescent under both natural white light and ultraviolet light. Their goal was to develop a fish that could detect pollution by selectively fluorescing in the presence of environmental toxins. USAGloFish Zebrafish (Danio rerio), red and blue versions. Although not originally developed for the ornamental fish trade, it is one of the first genetically modified animals to become publicly available. These fluorescent fishes were developed with a gene that encodes the green fluorescent protein from a jellyfish. The gene was inserted into a zebrafish embryo, allowing it to integrate into the zebrafish's genome, which caused the fish to be brightly fluorescent under both natural white light and ultraviolet light. Their goal was to develop a fish that could detect pollution by selectively fluorescing in the presence of environmental toxins. USAGloFish Zebrafish (Danio rerio), red and blue versions. Although not originally developed for the ornamental fish trade, it is one of the first genetically modified animals to become publicly available. These fluorescent fishes were developed with a gene that encodes the green fluorescent protein from a jellyfish. The gene was inserted into a zebrafish embryo, allowing it to integrate into the zebrafish's genome, which caused the fish to be brightly fluorescent under both natural white light and ultraviolet light. Their goal was to develop a fish that could detect pollution by selectively fluorescing in the presence of environmental toxins. USA© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2405131

GloFish Zebrafish (Danio rerio), red and blue versions. Although

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Microinjection of Zebrafish (Danio rerio) embryos to analyse gene function. Embryo being micro-injected into the yolk with RNA (ribonucleic acid) mixed with a red dye. One of the advantages of studying zebrafish is the ease with which specific gene products can be added to or eliminated from the embryo by microinjection. Morpholinos, which are synthetic oligonucleotides with antisense complementarity to target RNAs, can be added to the embryo to reduce the expression of a particular gene product. USAMicroinjection of Zebrafish (Danio rerio) embryos to analyse gene function. Embryo being micro-injected into the yolk with RNA (ribonucleic acid) mixed with a red dye. One of the advantages of studying zebrafish is the ease with which specific gene products can be added to or eliminated from the embryo by microinjection. Morpholinos, which are synthetic oligonucleotides with antisense complementarity to target RNAs, can be added to the embryo to reduce the expression of a particular gene product. USAMicroinjection of Zebrafish (Danio rerio) embryos to analyse gene function. Embryo being micro-injected into the yolk with RNA (ribonucleic acid) mixed with a red dye. One of the advantages of studying zebrafish is the ease with which specific gene products can be added to or eliminated from the embryo by microinjection. Morpholinos, which are synthetic oligonucleotides with antisense complementarity to target RNAs, can be added to the embryo to reduce the expression of a particular gene product. USA© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2405126

Microinjection of Zebrafish (Danio rerio) embryos to analyse gene

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Zebrafish (Danio rerio), on casper fish form. Casper fish are the result of a cross between 2 mutant zebra fish. Since 1930 zebra fish are used to study the development of cancer in vivo. The fertilized eggs, embryos, and fry are transparent, allowing scientists to easily observe and study topics such as tumor growth, brain tissue development, and blood vessel growth. However, after a few weeks, transparency declines as their bodies become opaque, limiting the research window for scientists. In response, researchers began crossbreeding specific genetic strains of zebra fish to produce a transparent fish. After a year, they developed the "Casper Fish", which lacks pigment in its skin and scales, and therefore is transparent. The Casper Fish’s transparency allowed researchers to extend their research into the adult stage of this model organism. USAZebrafish (Danio rerio), on casper fish form. Casper fish are the result of a cross between 2 mutant zebra fish. Since 1930 zebra fish are used to study the development of cancer in vivo. The fertilized eggs, embryos, and fry are transparent, allowing scientists to easily observe and study topics such as tumor growth, brain tissue development, and blood vessel growth. However, after a few weeks, transparency declines as their bodies become opaque, limiting the research window for scientists. In response, researchers began crossbreeding specific genetic strains of zebra fish to produce a transparent fish. After a year, they developed the "Casper Fish", which lacks pigment in its skin and scales, and therefore is transparent. The Casper Fish’s transparency allowed researchers to extend their research into the adult stage of this model organism. USAZebrafish (Danio rerio), on casper fish form. Casper fish are the result of a cross between 2 mutant zebra fish. Since 1930 zebra fish are used to study the development of cancer in vivo. The fertilized eggs, embryos, and fry are transparent, allowing scientists to easily observe and study topics such as tumor growth, brain tissue development, and blood vessel growth. However, after a few weeks, transparency declines as their bodies become opaque, limiting the research window for scientists. In response, researchers began crossbreeding specific genetic strains of zebra fish to produce a transparent fish. After a year, they developed the "Casper Fish", which lacks pigment in its skin and scales, and therefore is transparent. The Casper Fish’s transparency allowed researchers to extend their research into the adult stage of this model organism. USA© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2405125

Zebrafish (Danio rerio), on casper fish form. Casper fish are the

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A very rare (one in the world) Leucistic Mangrove pit viper (Trimeresurus purpureomaculatus)A very rare (one in the world) Leucistic Mangrove pit viper (Trimeresurus purpureomaculatus)A very rare (one in the world) Leucistic Mangrove pit viper (Trimeresurus purpureomaculatus)© Matthijs Kuijpers / BiosphotoJPG - RMNon exclusive sale
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2396479

A very rare (one in the world) Leucistic Mangrove pit viper

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The Central coast stubfoot toad (Atelopus franciscus) is endemic to French Guiana. Pictured a pied aberrant animal.The Central coast stubfoot toad (Atelopus franciscus) is endemic to French Guiana. Pictured a pied aberrant animal.The Central coast stubfoot toad (Atelopus franciscus) is endemic to French Guiana. Pictured a pied aberrant animal.© Matthijs Kuijpers / BiosphotoJPG - RMNon exclusive sale
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2394384

The Central coast stubfoot toad (Atelopus franciscus) is endemic

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Axolotl (Ambystoma mexicanum) on black backgroundAxolotl (Ambystoma mexicanum) on black backgroundAxolotl (Ambystoma mexicanum) on black background© Clément Carbillet / BiosphotoJPG - RMNon exclusive sale

2303604

Axolotl (Ambystoma mexicanum) on black background

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Axolotl (Ambystoma mexicanum) on black backgroundAxolotl (Ambystoma mexicanum) on black backgroundAxolotl (Ambystoma mexicanum) on black background© Clément Carbillet / BiosphotoJPG - RMNon exclusive sale

2303603

Axolotl (Ambystoma mexicanum) on black background

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Axolotl (Ambystoma mexicanum) on black backgroundAxolotl (Ambystoma mexicanum) on black backgroundAxolotl (Ambystoma mexicanum) on black background© Clément Carbillet / BiosphotoJPG - RMNon exclusive sale

2303602

Axolotl (Ambystoma mexicanum) on black background

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Gill of Axolotl (Ambystoma mexicanum)Gill of Axolotl (Ambystoma mexicanum)Gill of Axolotl (Ambystoma mexicanum)© Clément Carbillet / BiosphotoJPG - RMNon exclusive sale

2303601

Gill of Axolotl (Ambystoma mexicanum)

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Portrait of Axolotl (Ambystoma mexicanum)Portrait of Axolotl (Ambystoma mexicanum)Portrait of Axolotl (Ambystoma mexicanum)© Clément Carbillet / BiosphotoJPG - RMNon exclusive sale

2303600

Portrait of Axolotl (Ambystoma mexicanum)

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Neon tetra, Paracheirodon innesi. Regular bellow and Long fin variety above. Aquarium. PortugalNeon tetra, Paracheirodon innesi. Regular bellow and Long fin variety above. Aquarium. PortugalNeon tetra, Paracheirodon innesi. Regular bellow and Long fin variety above. Aquarium. Portugal© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2168074

Neon tetra, Paracheirodon innesi. Regular bellow and Long fin

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Sexual dimorphism on sharks. Ventral view of male and female sharks. Male, above, have claspers, which are elongated pelvic fin edges that are used to provide internal fecundation. Female, below, have a cloaca, one opening that serves digestive and reproductive functions. PortugalSexual dimorphism on sharks. Ventral view of male and female sharks. Male, above, have claspers, which are elongated pelvic fin edges that are used to provide internal fecundation. Female, below, have a cloaca, one opening that serves digestive and reproductive functions. PortugalSexual dimorphism on sharks. Ventral view of male and female sharks. Male, above, have claspers, which are elongated pelvic fin edges that are used to provide internal fecundation. Female, below, have a cloaca, one opening that serves digestive and reproductive functions. Portugal© Paulo de Oliveira / BiosphotoJPG - RMNon exclusive sale
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2167939

Sexual dimorphism on sharks. Ventral view of male and female

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Albino western diamond rattlesnake (Crotalus atrox) on black backgroundAlbino western diamond rattlesnake (Crotalus atrox) on black backgroundAlbino western diamond rattlesnake (Crotalus atrox) on black background© Matthijs Kuijpers / BiosphotoJPG - RMNon exclusive sale
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2154664

Albino western diamond rattlesnake (Crotalus atrox) on black

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Leucisitc Monocled cobra (Naja kaouthia) on black backgroundLeucisitc Monocled cobra (Naja kaouthia) on black backgroundLeucisitc Monocled cobra (Naja kaouthia) on black background© Clément Carbillet / BiosphotoJPG - RMNon exclusive sale

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Leucisitc Monocled cobra (Naja kaouthia) on black background

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Leucisitc Monocled cobra (Naja kaouthia) on black backgroundLeucisitc Monocled cobra (Naja kaouthia) on black backgroundLeucisitc Monocled cobra (Naja kaouthia) on black background© Clément Carbillet / BiosphotoJPG - RMNon exclusive sale

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Leucisitc Monocled cobra (Naja kaouthia) on black background

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Baja Rosy Boa (Lichanura trivirgata myriolepis), Limburg albino on white backgroundBaja Rosy Boa (Lichanura trivirgata myriolepis), Limburg albino on white backgroundBaja Rosy Boa (Lichanura trivirgata myriolepis), Limburg albino on white background© Matthijs Kuijpers / BiosphotoJPG - RMNon exclusive sale
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2148145

Baja Rosy Boa (Lichanura trivirgata myriolepis), Limburg albino

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Cape house snake (Boaedon capensis) albino on white backgroundCape house snake (Boaedon capensis) albino on white backgroundCape house snake (Boaedon capensis) albino on white background© Matthijs Kuijpers / BiosphotoJPG - RMNon exclusive sale
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2148142

Cape house snake (Boaedon capensis) albino on white background

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Ivory blood python (Python brongersmai) on white backgroundIvory blood python (Python brongersmai) on white backgroundIvory blood python (Python brongersmai) on white background© Matthijs Kuijpers / BiosphotoJPG - RMNon exclusive sale
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Ivory blood python (Python brongersmai) on white background

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Bared Fire salamander, Salamandra terrestris albinoBared Fire salamander, Salamandra terrestris albinoBared Fire salamander, Salamandra terrestris albino© Matthijs Kuijpers / BiosphotoJPG - RMNon exclusive sale
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Bared Fire salamander, Salamandra terrestris albino

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Solling fire salamander, Salamandra salamandra terrestris "solling"Solling fire salamander, Salamandra salamandra terrestris "solling"Solling fire salamander, Salamandra salamandra terrestris "solling"© Matthijs Kuijpers / BiosphotoJPG - RMNon exclusive sale
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Solling fire salamander, Salamandra salamandra terrestris

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Ball python,Python regius, piebald albinoBall python,Python regius, piebald albinoBall python,Python regius, piebald albino© Matthijs Kuijpers / BiosphotoJPG - RMNon exclusive sale
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Ball python,Python regius, piebald albino

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Ball python,Python regius, albino pinstripeBall python,Python regius, albino pinstripeBall python,Python regius, albino pinstripe© Matthijs Kuijpers / BiosphotoJPG - RMNon exclusive sale
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Ball python,Python regius, albino pinstripe

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Burmese python (Python bivittatus) ,labyrint albinoBurmese python (Python bivittatus) ,labyrint albinoBurmese python (Python bivittatus) ,labyrint albino© Matthijs Kuijpers / BiosphotoJPG - RMNon exclusive sale
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Burmese python (Python bivittatus) ,labyrint albino

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Burmese python (Python bivittatus), albinoBurmese python (Python bivittatus), albinoBurmese python (Python bivittatus), albino© Matthijs Kuijpers / BiosphotoJPG - RMNon exclusive sale
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Burmese python (Python bivittatus), albino

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Nelson's milksnake (Lampropeltis triangulum nelsoni), albinoNelson's milksnake (Lampropeltis triangulum nelsoni), albinoNelson's milksnake (Lampropeltis triangulum nelsoni), albino© Matthijs Kuijpers / BiosphotoJPG - RMNon exclusive sale
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Nelson's milksnake (Lampropeltis triangulum nelsoni), albino

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