praxlada
praxlada
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aarcadien:

"Before They Pass Away" is a collection of evocative portraits by the British photographer Jimmy Nelson that capture the world’s “last tribesmen”.
"I didn’t start this project anticipating that I could stop the world from changing. I purely wanted to create a visual document that reminds us and generations to come of how beautiful the human world once was."
– Jimmy Nelson
http://www.beforethey.com/
aarcadien:

"Before They Pass Away" is a collection of evocative portraits by the British photographer Jimmy Nelson that capture the world’s “last tribesmen”.
"I didn’t start this project anticipating that I could stop the world from changing. I purely wanted to create a visual document that reminds us and generations to come of how beautiful the human world once was."
– Jimmy Nelson
http://www.beforethey.com/
aarcadien:

"Before They Pass Away" is a collection of evocative portraits by the British photographer Jimmy Nelson that capture the world’s “last tribesmen”.
"I didn’t start this project anticipating that I could stop the world from changing. I purely wanted to create a visual document that reminds us and generations to come of how beautiful the human world once was."
– Jimmy Nelson
http://www.beforethey.com/
aarcadien:

"Before They Pass Away" is a collection of evocative portraits by the British photographer Jimmy Nelson that capture the world’s “last tribesmen”.
"I didn’t start this project anticipating that I could stop the world from changing. I purely wanted to create a visual document that reminds us and generations to come of how beautiful the human world once was."
– Jimmy Nelson
http://www.beforethey.com/
aarcadien:

"Before They Pass Away" is a collection of evocative portraits by the British photographer Jimmy Nelson that capture the world’s “last tribesmen”.
"I didn’t start this project anticipating that I could stop the world from changing. I purely wanted to create a visual document that reminds us and generations to come of how beautiful the human world once was."
– Jimmy Nelson
http://www.beforethey.com/
aarcadien:

"Before They Pass Away" is a collection of evocative portraits by the British photographer Jimmy Nelson that capture the world’s “last tribesmen”.
"I didn’t start this project anticipating that I could stop the world from changing. I purely wanted to create a visual document that reminds us and generations to come of how beautiful the human world once was."
– Jimmy Nelson
http://www.beforethey.com/
aarcadien:

"Before They Pass Away" is a collection of evocative portraits by the British photographer Jimmy Nelson that capture the world’s “last tribesmen”.
"I didn’t start this project anticipating that I could stop the world from changing. I purely wanted to create a visual document that reminds us and generations to come of how beautiful the human world once was."
– Jimmy Nelson
http://www.beforethey.com/
aarcadien:

"Before They Pass Away" is a collection of evocative portraits by the British photographer Jimmy Nelson that capture the world’s “last tribesmen”.
"I didn’t start this project anticipating that I could stop the world from changing. I purely wanted to create a visual document that reminds us and generations to come of how beautiful the human world once was."
– Jimmy Nelson
http://www.beforethey.com/
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theoncomingapocalypse:

this is very calming
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tr3slikes:

tr3slikes
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infinity-imagined:

The interior of a Eukaryotic Cell, from the outer membrane through the cytosol to the nucleus.  All molecular structures are colored by their function; the cytoskeleton is blue, membranes are green, ribosomes are purple, RNA and spliceosomes are pink, DNA and nucleosomes are yellow.  This cell is producing antibodies, all steps of the process are visualized in order from the bottom to the top of the image. 
      First DNA is transcribed to RNA, and the RNA is spliced before leaving the nucleus through a nuclear pore.  Translation begins when the RNA becomes bound to a ribosome, which converts the genetic sequence to a linear protein.  The proteins are folded and sorted inside the Golgi Complex, and then packaged into vesicles by the geodesic Clathrin Assembly.  These vesicles are pulled along microtubules by kinesin motors.  The vesicles then fuse with the outer membrane, and the antibodies are released into the bloodstream.
Illustration by David Goodsell
infinity-imagined:

The interior of a Eukaryotic Cell, from the outer membrane through the cytosol to the nucleus.  All molecular structures are colored by their function; the cytoskeleton is blue, membranes are green, ribosomes are purple, RNA and spliceosomes are pink, DNA and nucleosomes are yellow.  This cell is producing antibodies, all steps of the process are visualized in order from the bottom to the top of the image. 
      First DNA is transcribed to RNA, and the RNA is spliced before leaving the nucleus through a nuclear pore.  Translation begins when the RNA becomes bound to a ribosome, which converts the genetic sequence to a linear protein.  The proteins are folded and sorted inside the Golgi Complex, and then packaged into vesicles by the geodesic Clathrin Assembly.  These vesicles are pulled along microtubules by kinesin motors.  The vesicles then fuse with the outer membrane, and the antibodies are released into the bloodstream.
Illustration by David Goodsell
infinity-imagined:

The interior of a Eukaryotic Cell, from the outer membrane through the cytosol to the nucleus.  All molecular structures are colored by their function; the cytoskeleton is blue, membranes are green, ribosomes are purple, RNA and spliceosomes are pink, DNA and nucleosomes are yellow.  This cell is producing antibodies, all steps of the process are visualized in order from the bottom to the top of the image. 
      First DNA is transcribed to RNA, and the RNA is spliced before leaving the nucleus through a nuclear pore.  Translation begins when the RNA becomes bound to a ribosome, which converts the genetic sequence to a linear protein.  The proteins are folded and sorted inside the Golgi Complex, and then packaged into vesicles by the geodesic Clathrin Assembly.  These vesicles are pulled along microtubules by kinesin motors.  The vesicles then fuse with the outer membrane, and the antibodies are released into the bloodstream.
Illustration by David Goodsell
infinity-imagined:

The interior of a Eukaryotic Cell, from the outer membrane through the cytosol to the nucleus.  All molecular structures are colored by their function; the cytoskeleton is blue, membranes are green, ribosomes are purple, RNA and spliceosomes are pink, DNA and nucleosomes are yellow.  This cell is producing antibodies, all steps of the process are visualized in order from the bottom to the top of the image. 
      First DNA is transcribed to RNA, and the RNA is spliced before leaving the nucleus through a nuclear pore.  Translation begins when the RNA becomes bound to a ribosome, which converts the genetic sequence to a linear protein.  The proteins are folded and sorted inside the Golgi Complex, and then packaged into vesicles by the geodesic Clathrin Assembly.  These vesicles are pulled along microtubules by kinesin motors.  The vesicles then fuse with the outer membrane, and the antibodies are released into the bloodstream.
Illustration by David Goodsell
infinity-imagined:

The interior of a Eukaryotic Cell, from the outer membrane through the cytosol to the nucleus.  All molecular structures are colored by their function; the cytoskeleton is blue, membranes are green, ribosomes are purple, RNA and spliceosomes are pink, DNA and nucleosomes are yellow.  This cell is producing antibodies, all steps of the process are visualized in order from the bottom to the top of the image. 
      First DNA is transcribed to RNA, and the RNA is spliced before leaving the nucleus through a nuclear pore.  Translation begins when the RNA becomes bound to a ribosome, which converts the genetic sequence to a linear protein.  The proteins are folded and sorted inside the Golgi Complex, and then packaged into vesicles by the geodesic Clathrin Assembly.  These vesicles are pulled along microtubules by kinesin motors.  The vesicles then fuse with the outer membrane, and the antibodies are released into the bloodstream.
Illustration by David Goodsell
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varenye:

утекааййй
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movingthestill:

Title: SwingArtist: Yunfan Tan
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realkawaii:

i wish i knew who this was so i can creep :(
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