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DUK10141521_016
FEATURE - Mikroskopische Roboter aus Frosch-Embryonen können sich selbst heilen und Verschmutzungen und radioaktive Kontaminationen aufspüren
Ferrari Press Agency
Living robots1
Ref 12791
01/04/2021
See Ferrari text
Pictures must credit: Tufts University / University of Vermont
Microscopic living robots made from frog embryos are being developed with self-healing powers and the ability to keep memories.They are able to self-propel using hair-like 'legs' They could have the ability to recall things such as radioactive contamination, chemical pollutants or a disease condition in the body that can be reported back to researchers for further investigation,The innovation pulls from previous work released last year, called Xenobots, but has been upgraded to move more efficiently and perform more complex tasks.The new version, called Xenobots 2.0 , has a number of improvements.Both machines were developed by US biologists and computer scientists from Tufts University in Massachusetts and the University of Vermont.The name Xenobots derives from the name of the African frog Xenopus Laevis whose spawn was used to gather cells.The original bots were programmed to perform a range of tasks, specifically delivering medicine directly to a point in the body.However, the 2.0 versions have been upgraded to move faster, navigate different environments and have longer life spans.
OPS:Creating Xenobots 2.0.Individuals move by swimming
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10141521_015
FEATURE - Mikroskopische Roboter aus Frosch-Embryonen können sich selbst heilen und Verschmutzungen und radioaktive Kontaminationen aufspüren
Ferrari Press Agency
Living robots1
Ref 12791
01/04/2021
See Ferrari text
Pictures must credit: Tufts University / University of Vermont
Microscopic living robots made from frog embryos are being developed with self-healing powers and the ability to keep memories.They are able to self-propel using hair-like 'legs' They could have the ability to recall things such as radioactive contamination, chemical pollutants or a disease condition in the body that can be reported back to researchers for further investigation,The innovation pulls from previous work released last year, called Xenobots, but has been upgraded to move more efficiently and perform more complex tasks.The new version, called Xenobots 2.0 , has a number of improvements.Both machines were developed by US biologists and computer scientists from Tufts University in Massachusetts and the University of Vermont.The name Xenobots derives from the name of the African frog Xenopus Laevis whose spawn was used to gather cells.The original bots were programmed to perform a range of tasks, specifically delivering medicine directly to a point in the body.However, the 2.0 versions have been upgraded to move faster, navigate different environments and have longer life spans.
OPS:Creating Xenobots 2.0. Stem cell tissue is harvested from the embryo after the egg membrane is removed
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10141521_014
FEATURE - Mikroskopische Roboter aus Frosch-Embryonen können sich selbst heilen und Verschmutzungen und radioaktive Kontaminationen aufspüren
Ferrari Press Agency
Living robots1
Ref 12791
01/04/2021
See Ferrari text
Pictures must credit: Tufts University / University of Vermont
Microscopic living robots made from frog embryos are being developed with self-healing powers and the ability to keep memories.They are able to self-propel using hair-like 'legs' They could have the ability to recall things such as radioactive contamination, chemical pollutants or a disease condition in the body that can be reported back to researchers for further investigation,The innovation pulls from previous work released last year, called Xenobots, but has been upgraded to move more efficiently and perform more complex tasks.The new version, called Xenobots 2.0 , has a number of improvements.Both machines were developed by US biologists and computer scientists from Tufts University in Massachusetts and the University of Vermont.The name Xenobots derives from the name of the African frog Xenopus Laevis whose spawn was used to gather cells.The original bots were programmed to perform a range of tasks, specifically delivering medicine directly to a point in the body.However, the 2.0 versions have been upgraded to move faster, navigate different environments and have longer life spans.
OPS:Creating Xenobots 2.0.Groups can move particles around in their environment
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10141521_013
FEATURE - Mikroskopische Roboter aus Frosch-Embryonen können sich selbst heilen und Verschmutzungen und radioaktive Kontaminationen aufspüren
Ferrari Press Agency
Living robots1
Ref 12791
01/04/2021
See Ferrari text
Pictures must credit: Tufts University / University of Vermont
Microscopic living robots made from frog embryos are being developed with self-healing powers and the ability to keep memories.They are able to self-propel using hair-like 'legs' They could have the ability to recall things such as radioactive contamination, chemical pollutants or a disease condition in the body that can be reported back to researchers for further investigation,The innovation pulls from previous work released last year, called Xenobots, but has been upgraded to move more efficiently and perform more complex tasks.The new version, called Xenobots 2.0 , has a number of improvements.Both machines were developed by US biologists and computer scientists from Tufts University in Massachusetts and the University of Vermont.The name Xenobots derives from the name of the African frog Xenopus Laevis whose spawn was used to gather cells.The original bots were programmed to perform a range of tasks, specifically delivering medicine directly to a point in the body.However, the 2.0 versions have been upgraded to move faster, navigate different environments and have longer life spans.
OPS:Creating Xenobots 2.0.They can self-repair when injured.This shows a Xenobot 2.0 after medning a tear in its structure
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10141521_012
FEATURE - Mikroskopische Roboter aus Frosch-Embryonen können sich selbst heilen und Verschmutzungen und radioaktive Kontaminationen aufspüren
Ferrari Press Agency
Living robots1
Ref 12791
01/04/2021
See Ferrari text
Pictures must credit: Tufts University / University of Vermont
Microscopic living robots made from frog embryos are being developed with self-healing powers and the ability to keep memories.They are able to self-propel using hair-like 'legs' They could have the ability to recall things such as radioactive contamination, chemical pollutants or a disease condition in the body that can be reported back to researchers for further investigation,The innovation pulls from previous work released last year, called Xenobots, but has been upgraded to move more efficiently and perform more complex tasks.The new version, called Xenobots 2.0 , has a number of improvements.Both machines were developed by US biologists and computer scientists from Tufts University in Massachusetts and the University of Vermont.The name Xenobots derives from the name of the African frog Xenopus Laevis whose spawn was used to gather cells.The original bots were programmed to perform a range of tasks, specifically delivering medicine directly to a point in the body.However, the 2.0 versions have been upgraded to move faster, navigate different environments and have longer life spans.
OPS:Creating Xenobots 2.0.Navigating a narrow capillary
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10141521_011
FEATURE - Mikroskopische Roboter aus Frosch-Embryonen können sich selbst heilen und Verschmutzungen und radioaktive Kontaminationen aufspüren
Ferrari Press Agency
Living robots1
Ref 12791
01/04/2021
See Ferrari text
Pictures must credit: Tufts University / University of Vermont
Microscopic living robots made from frog embryos are being developed with self-healing powers and the ability to keep memories.They are able to self-propel using hair-like 'legs' They could have the ability to recall things such as radioactive contamination, chemical pollutants or a disease condition in the body that can be reported back to researchers for further investigation,The innovation pulls from previous work released last year, called Xenobots, but has been upgraded to move more efficiently and perform more complex tasks.The new version, called Xenobots 2.0 , has a number of improvements.Both machines were developed by US biologists and computer scientists from Tufts University in Massachusetts and the University of Vermont.The name Xenobots derives from the name of the African frog Xenopus Laevis whose spawn was used to gather cells.The original bots were programmed to perform a range of tasks, specifically delivering medicine directly to a point in the body.However, the 2.0 versions have been upgraded to move faster, navigate different environments and have longer life spans.
OPS:Creating Xenobots 2.0.They can record experiences by changing colour
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10141521_010
FEATURE - Mikroskopische Roboter aus Frosch-Embryonen können sich selbst heilen und Verschmutzungen und radioaktive Kontaminationen aufspüren
Ferrari Press Agency
Living robots1
Ref 12791
01/04/2021
See Ferrari text
Pictures must credit: Tufts University / University of Vermont
Microscopic living robots made from frog embryos are being developed with self-healing powers and the ability to keep memories.They are able to self-propel using hair-like 'legs' They could have the ability to recall things such as radioactive contamination, chemical pollutants or a disease condition in the body that can be reported back to researchers for further investigation,The innovation pulls from previous work released last year, called Xenobots, but has been upgraded to move more efficiently and perform more complex tasks.The new version, called Xenobots 2.0 , has a number of improvements.Both machines were developed by US biologists and computer scientists from Tufts University in Massachusetts and the University of Vermont.The name Xenobots derives from the name of the African frog Xenopus Laevis whose spawn was used to gather cells.The original bots were programmed to perform a range of tasks, specifically delivering medicine directly to a point in the body.However, the 2.0 versions have been upgraded to move faster, navigate different environments and have longer life spans.
OPS:Creating Xenobots 2.0. The egg membrane is removed 24hours after it was injected with RNA
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10141521_009
FEATURE - Mikroskopische Roboter aus Frosch-Embryonen können sich selbst heilen und Verschmutzungen und radioaktive Kontaminationen aufspüren
Ferrari Press Agency
Living robots1
Ref 12791
01/04/2021
See Ferrari text
Pictures must credit: Tufts University / University of Vermont
Microscopic living robots made from frog embryos are being developed with self-healing powers and the ability to keep memories.They are able to self-propel using hair-like 'legs' They could have the ability to recall things such as radioactive contamination, chemical pollutants or a disease condition in the body that can be reported back to researchers for further investigation,The innovation pulls from previous work released last year, called Xenobots, but has been upgraded to move more efficiently and perform more complex tasks.The new version, called Xenobots 2.0 , has a number of improvements.Both machines were developed by US biologists and computer scientists from Tufts University in Massachusetts and the University of Vermont.The name Xenobots derives from the name of the African frog Xenopus Laevis whose spawn was used to gather cells.The original bots were programmed to perform a range of tasks, specifically delivering medicine directly to a point in the body.However, the 2.0 versions have been upgraded to move faster, navigate different environments and have longer life spans.
OPS:Creating Xenobots 2.0. Stem cell tissue taken from the embryos forms into a sphere
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10141521_008
FEATURE - Mikroskopische Roboter aus Frosch-Embryonen können sich selbst heilen und Verschmutzungen und radioaktive Kontaminationen aufspüren
Ferrari Press Agency
Living robots1
Ref 12791
01/04/2021
See Ferrari text
Pictures must credit: Tufts University / University of Vermont
Microscopic living robots made from frog embryos are being developed with self-healing powers and the ability to keep memories.They are able to self-propel using hair-like 'legs' They could have the ability to recall things such as radioactive contamination, chemical pollutants or a disease condition in the body that can be reported back to researchers for further investigation,The innovation pulls from previous work released last year, called Xenobots, but has been upgraded to move more efficiently and perform more complex tasks.The new version, called Xenobots 2.0 , has a number of improvements.Both machines were developed by US biologists and computer scientists from Tufts University in Massachusetts and the University of Vermont.The name Xenobots derives from the name of the African frog Xenopus Laevis whose spawn was used to gather cells.The original bots were programmed to perform a range of tasks, specifically delivering medicine directly to a point in the body.However, the 2.0 versions have been upgraded to move faster, navigate different environments and have longer life spans.
OPS:Creating Xenobots 2.0.After four days the spheres become mobile
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10141521_007
FEATURE - Mikroskopische Roboter aus Frosch-Embryonen können sich selbst heilen und Verschmutzungen und radioaktive Kontaminationen aufspüren
Ferrari Press Agency
Living robots1
Ref 12791
01/04/2021
See Ferrari text
Pictures must credit: Tufts University / University of Vermont
Microscopic living robots made from frog embryos are being developed with self-healing powers and the ability to keep memories.They are able to self-propel using hair-like 'legs' They could have the ability to recall things such as radioactive contamination, chemical pollutants or a disease condition in the body that can be reported back to researchers for further investigation,The innovation pulls from previous work released last year, called Xenobots, but has been upgraded to move more efficiently and perform more complex tasks.The new version, called Xenobots 2.0 , has a number of improvements.Both machines were developed by US biologists and computer scientists from Tufts University in Massachusetts and the University of Vermont.The name Xenobots derives from the name of the African frog Xenopus Laevis whose spawn was used to gather cells.The original bots were programmed to perform a range of tasks, specifically delivering medicine directly to a point in the body.However, the 2.0 versions have been upgraded to move faster, navigate different environments and have longer life spans.
OPS:Creating Xenobots 2.0.Swimming is propelled by small hairs
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10141521_006
FEATURE - Mikroskopische Roboter aus Frosch-Embryonen können sich selbst heilen und Verschmutzungen und radioaktive Kontaminationen aufspüren
Ferrari Press Agency
Living robots1
Ref 12791
01/04/2021
See Ferrari text
Pictures must credit: Tufts University / University of Vermont
Microscopic living robots made from frog embryos are being developed with self-healing powers and the ability to keep memories.They are able to self-propel using hair-like 'legs' They could have the ability to recall things such as radioactive contamination, chemical pollutants or a disease condition in the body that can be reported back to researchers for further investigation,The innovation pulls from previous work released last year, called Xenobots, but has been upgraded to move more efficiently and perform more complex tasks.The new version, called Xenobots 2.0 , has a number of improvements.Both machines were developed by US biologists and computer scientists from Tufts University in Massachusetts and the University of Vermont.The name Xenobots derives from the name of the African frog Xenopus Laevis whose spawn was used to gather cells.The original bots were programmed to perform a range of tasks, specifically delivering medicine directly to a point in the body.However, the 2.0 versions have been upgraded to move faster, navigate different environments and have longer life spans.
OPS:Creating Xenobots 2.0.Frog eggs are injected with RNA converts DNA code into proteins to carry out cellular functions.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10141521_005
FEATURE - Mikroskopische Roboter aus Frosch-Embryonen können sich selbst heilen und Verschmutzungen und radioaktive Kontaminationen aufspüren
Ferrari Press Agency
Living robots1
Ref 12791
01/04/2021
See Ferrari text
Pictures must credit: Tufts University / University of Vermont
Microscopic living robots made from frog embryos are being developed with self-healing powers and the ability to keep memories.They are able to self-propel using hair-like 'legs' They could have the ability to recall things such as radioactive contamination, chemical pollutants or a disease condition in the body that can be reported back to researchers for further investigation,The innovation pulls from previous work released last year, called Xenobots, but has been upgraded to move more efficiently and perform more complex tasks.The new version, called Xenobots 2.0 , has a number of improvements.Both machines were developed by US biologists and computer scientists from Tufts University in Massachusetts and the University of Vermont.The name Xenobots derives from the name of the African frog Xenopus Laevis whose spawn was used to gather cells.The original bots were programmed to perform a range of tasks, specifically delivering medicine directly to a point in the body.However, the 2.0 versions have been upgraded to move faster, navigate different environments and have longer life spans.
OPS:Creating Xenobots 2.0.The egg membrane is removed 24hours after it was injected with RNA
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10141521_004
FEATURE - Mikroskopische Roboter aus Frosch-Embryonen können sich selbst heilen und Verschmutzungen und radioaktive Kontaminationen aufspüren
Ferrari Press Agency
Living robots1
Ref 12791
01/04/2021
See Ferrari text
Pictures must credit: Tufts University / University of Vermont
Microscopic living robots made from frog embryos are being developed with self-healing powers and the ability to keep memories.They are able to self-propel using hair-like 'legs' They could have the ability to recall things such as radioactive contamination, chemical pollutants or a disease condition in the body that can be reported back to researchers for further investigation,The innovation pulls from previous work released last year, called Xenobots, but has been upgraded to move more efficiently and perform more complex tasks.The new version, called Xenobots 2.0 , has a number of improvements.Both machines were developed by US biologists and computer scientists from Tufts University in Massachusetts and the University of Vermont.The name Xenobots derives from the name of the African frog Xenopus Laevis whose spawn was used to gather cells.The original bots were programmed to perform a range of tasks, specifically delivering medicine directly to a point in the body.However, the 2.0 versions have been upgraded to move faster, navigate different environments and have longer life spans.
OPS:Creating Xenobots 2.0. Stem cell tissue is harvested from the embryo after the egg membrane is removed
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10141521_003
FEATURE - Mikroskopische Roboter aus Frosch-Embryonen können sich selbst heilen und Verschmutzungen und radioaktive Kontaminationen aufspüren
Ferrari Press Agency
Living robots1
Ref 12791
01/04/2021
See Ferrari text
Pictures must credit: Tufts University / University of Vermont
Microscopic living robots made from frog embryos are being developed with self-healing powers and the ability to keep memories.They are able to self-propel using hair-like 'legs' They could have the ability to recall things such as radioactive contamination, chemical pollutants or a disease condition in the body that can be reported back to researchers for further investigation,The innovation pulls from previous work released last year, called Xenobots, but has been upgraded to move more efficiently and perform more complex tasks.The new version, called Xenobots 2.0 , has a number of improvements.Both machines were developed by US biologists and computer scientists from Tufts University in Massachusetts and the University of Vermont.The name Xenobots derives from the name of the African frog Xenopus Laevis whose spawn was used to gather cells.The original bots were programmed to perform a range of tasks, specifically delivering medicine directly to a point in the body.However, the 2.0 versions have been upgraded to move faster, navigate different environments and have longer life spans.
OPS:Creating Xenobots 2.0. They can self-repair when injured.This shows a Xenobot 2.0 with a tear in its structure
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10141521_002
FEATURE - Mikroskopische Roboter aus Frosch-Embryonen können sich selbst heilen und Verschmutzungen und radioaktive Kontaminationen aufspüren
Ferrari Press Agency
Living robots1
Ref 12791
01/04/2021
See Ferrari text
Pictures must credit: Tufts University / University of Vermont
Microscopic living robots made from frog embryos are being developed with self-healing powers and the ability to keep memories.They are able to self-propel using hair-like 'legs' They could have the ability to recall things such as radioactive contamination, chemical pollutants or a disease condition in the body that can be reported back to researchers for further investigation,The innovation pulls from previous work released last year, called Xenobots, but has been upgraded to move more efficiently and perform more complex tasks.The new version, called Xenobots 2.0 , has a number of improvements.Both machines were developed by US biologists and computer scientists from Tufts University in Massachusetts and the University of Vermont.The name Xenobots derives from the name of the African frog Xenopus Laevis whose spawn was used to gather cells.The original bots were programmed to perform a range of tasks, specifically delivering medicine directly to a point in the body.However, the 2.0 versions have been upgraded to move faster, navigate different environments and have longer life spans.
OPS:Creating Xenobots 2.0.Navigating a narrow capillary
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10141521_001
FEATURE - Mikroskopische Roboter aus Frosch-Embryonen können sich selbst heilen und Verschmutzungen und radioaktive Kontaminationen aufspüren
Ferrari Press Agency
Living robots1
Ref 12791
01/04/2021
See Ferrari text
Pictures must credit: Tufts University / University of Vermont
Microscopic living robots made from frog embryos are being developed with self-healing powers and the ability to keep memories.They are able to self-propel using hair-like 'legs' They could have the ability to recall things such as radioactive contamination, chemical pollutants or a disease condition in the body that can be reported back to researchers for further investigation,The innovation pulls from previous work released last year, called Xenobots, but has been upgraded to move more efficiently and perform more complex tasks.The new version, called Xenobots 2.0 , has a number of improvements.Both machines were developed by US biologists and computer scientists from Tufts University in Massachusetts and the University of Vermont.The name Xenobots derives from the name of the African frog Xenopus Laevis whose spawn was used to gather cells.The original bots were programmed to perform a range of tasks, specifically delivering medicine directly to a point in the body.However, the 2.0 versions have been upgraded to move faster, navigate different environments and have longer life spans.
OPS:Creating Xenobots 2.0.Stem cell tisssue taken forms into a sphere
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas