Podcast appearances and mentions of miles wilkinson

  • 9PODCASTS
  • 9EPISODES
  • 27mAVG DURATION
  • 1MONTHLY NEW EPISODE
  • Mar 27, 2026LATEST

POPULARITY

20192020202120222023202420252026


Latest podcast episodes about miles wilkinson

Science (Video)
CARTA: The Evolution of the Human Brain through Shifts in Gene Regulation with Miles Wilkinson

Science (Video)

Play Episode Listen Later Mar 27, 2026 23:20


A fundamental question in biology is: how did humans acquire their unique characteristics? What allows us to stand upright, while our primate ancestors walked on all fours? What brain alterations drove our increased intelligence and allowed us to perceive our own mortality? One of the mechanisms that has been hypothesized to be involved is changes in gene expression elicited by nucleotide alterations in non-coding regions of the human genome. Miles Wilkinson, a professor in the Department of Obstetrics, Gynecology, and Reproductive Sciences at UC, San Diego, discusses a class of DNA sequences hypothesized to have this role. These human accelerated regions (HARs) are segments of DNA that exhibit 3 characteristics that—together—make them prime candidates for specifying human-specific traits by altering patterns of gene expression. First, HARs have rapidly changed in sequence specifically in the human lineage. Second, HARs are highly conserved in sequence, indicating they that must have been selected for the ability to confer one or more function in higher organisms. Third, the vast majority of HARs are in the non-coding portion of animal genomes, indicating that most are likely to have a regulatory function. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 41300]

training evolution brain dna san diego human neuroscience biology shifts carta genes uc obstetrics primates gynecology genome human brain academic research reproductive sciences hars gene regulation nucleotide anthropology and archaeology series carta center anthropogeny science show id miles wilkinson
University of California Audio Podcasts (Audio)
CARTA: The Evolution of the Human Brain through Shifts in Gene Regulation with Miles Wilkinson

University of California Audio Podcasts (Audio)

Play Episode Listen Later Mar 27, 2026 23:20


A fundamental question in biology is: how did humans acquire their unique characteristics? What allows us to stand upright, while our primate ancestors walked on all fours? What brain alterations drove our increased intelligence and allowed us to perceive our own mortality? One of the mechanisms that has been hypothesized to be involved is changes in gene expression elicited by nucleotide alterations in non-coding regions of the human genome. Miles Wilkinson, a professor in the Department of Obstetrics, Gynecology, and Reproductive Sciences at UC, San Diego, discusses a class of DNA sequences hypothesized to have this role. These human accelerated regions (HARs) are segments of DNA that exhibit 3 characteristics that—together—make them prime candidates for specifying human-specific traits by altering patterns of gene expression. First, HARs have rapidly changed in sequence specifically in the human lineage. Second, HARs are highly conserved in sequence, indicating they that must have been selected for the ability to confer one or more function in higher organisms. Third, the vast majority of HARs are in the non-coding portion of animal genomes, indicating that most are likely to have a regulatory function. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 41300]

training evolution brain dna san diego human neuroscience biology shifts carta genes uc obstetrics primates gynecology genome human brain academic research reproductive sciences hars gene regulation nucleotide anthropology and archaeology series carta center anthropogeny science show id miles wilkinson
CARTA - Center for Academic Research and Training in Anthropogeny (Video)
CARTA: The Evolution of the Human Brain through Shifts in Gene Regulation with Miles Wilkinson

CARTA - Center for Academic Research and Training in Anthropogeny (Video)

Play Episode Listen Later Mar 27, 2026 23:20


A fundamental question in biology is: how did humans acquire their unique characteristics? What allows us to stand upright, while our primate ancestors walked on all fours? What brain alterations drove our increased intelligence and allowed us to perceive our own mortality? One of the mechanisms that has been hypothesized to be involved is changes in gene expression elicited by nucleotide alterations in non-coding regions of the human genome. Miles Wilkinson, a professor in the Department of Obstetrics, Gynecology, and Reproductive Sciences at UC, San Diego, discusses a class of DNA sequences hypothesized to have this role. These human accelerated regions (HARs) are segments of DNA that exhibit 3 characteristics that—together—make them prime candidates for specifying human-specific traits by altering patterns of gene expression. First, HARs have rapidly changed in sequence specifically in the human lineage. Second, HARs are highly conserved in sequence, indicating they that must have been selected for the ability to confer one or more function in higher organisms. Third, the vast majority of HARs are in the non-coding portion of animal genomes, indicating that most are likely to have a regulatory function. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 41300]

training evolution brain dna san diego human neuroscience biology shifts carta genes uc obstetrics primates gynecology genome human brain academic research reproductive sciences hars gene regulation nucleotide anthropology and archaeology series carta center anthropogeny science show id miles wilkinson
Science (Audio)
CARTA: The Evolution of the Human Brain through Shifts in Gene Regulation with Miles Wilkinson

Science (Audio)

Play Episode Listen Later Mar 27, 2026 23:20


A fundamental question in biology is: how did humans acquire their unique characteristics? What allows us to stand upright, while our primate ancestors walked on all fours? What brain alterations drove our increased intelligence and allowed us to perceive our own mortality? One of the mechanisms that has been hypothesized to be involved is changes in gene expression elicited by nucleotide alterations in non-coding regions of the human genome. Miles Wilkinson, a professor in the Department of Obstetrics, Gynecology, and Reproductive Sciences at UC, San Diego, discusses a class of DNA sequences hypothesized to have this role. These human accelerated regions (HARs) are segments of DNA that exhibit 3 characteristics that—together—make them prime candidates for specifying human-specific traits by altering patterns of gene expression. First, HARs have rapidly changed in sequence specifically in the human lineage. Second, HARs are highly conserved in sequence, indicating they that must have been selected for the ability to confer one or more function in higher organisms. Third, the vast majority of HARs are in the non-coding portion of animal genomes, indicating that most are likely to have a regulatory function. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 41300]

training evolution brain dna san diego human neuroscience biology shifts carta genes uc obstetrics primates gynecology genome human brain academic research reproductive sciences hars gene regulation nucleotide anthropology and archaeology series carta center anthropogeny science show id miles wilkinson
UC San Diego (Audio)
CARTA: The Evolution of the Human Brain through Shifts in Gene Regulation with Miles Wilkinson

UC San Diego (Audio)

Play Episode Listen Later Mar 27, 2026 23:20


A fundamental question in biology is: how did humans acquire their unique characteristics? What allows us to stand upright, while our primate ancestors walked on all fours? What brain alterations drove our increased intelligence and allowed us to perceive our own mortality? One of the mechanisms that has been hypothesized to be involved is changes in gene expression elicited by nucleotide alterations in non-coding regions of the human genome. Miles Wilkinson, a professor in the Department of Obstetrics, Gynecology, and Reproductive Sciences at UC, San Diego, discusses a class of DNA sequences hypothesized to have this role. These human accelerated regions (HARs) are segments of DNA that exhibit 3 characteristics that—together—make them prime candidates for specifying human-specific traits by altering patterns of gene expression. First, HARs have rapidly changed in sequence specifically in the human lineage. Second, HARs are highly conserved in sequence, indicating they that must have been selected for the ability to confer one or more function in higher organisms. Third, the vast majority of HARs are in the non-coding portion of animal genomes, indicating that most are likely to have a regulatory function. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 41300]

training evolution brain dna san diego human neuroscience biology shifts carta genes uc obstetrics primates gynecology genome human brain academic research reproductive sciences hars gene regulation nucleotide anthropology and archaeology series carta center anthropogeny science show id miles wilkinson
Stem Cell Channel (Video)
Is Most of Your DNA Junk?

Stem Cell Channel (Video)

Play Episode Listen Later May 24, 2019 33:41


Alysson Muotri and top geneticists Rusty Gage and Miles Wilkinson explore the fact that ninety-nine percent of human DNA doesn't code for anything used by the human body. Series: "Stem Cell Channel" [Science] [Show ID: 33492]

dna genetics junk alysson muotri rusty gage miles wilkinson
Stem Cell Channel (Audio)
Is Most of Your DNA Junk?

Stem Cell Channel (Audio)

Play Episode Listen Later May 24, 2019 33:41


Alysson Muotri and top geneticists Rusty Gage and Miles Wilkinson explore the fact that ninety-nine percent of human DNA doesn't code for anything used by the human body. Series: "Stem Cell Channel" [Science] [Show ID: 33492]

dna genetics junk alysson muotri rusty gage miles wilkinson
Genetics (Audio)
Is Most of Your DNA Junk?

Genetics (Audio)

Play Episode Listen Later May 24, 2019 33:41


Alysson Muotri and top geneticists Rusty Gage and Miles Wilkinson explore the fact that ninety-nine percent of human DNA doesn't code for anything used by the human body. Series: "Stem Cell Channel" [Science] [Show ID: 33492]

dna genetics junk alysson muotri rusty gage miles wilkinson
Genetics (Video)
Is Most of Your DNA Junk?

Genetics (Video)

Play Episode Listen Later May 24, 2019 33:41


Alysson Muotri and top geneticists Rusty Gage and Miles Wilkinson explore the fact that ninety-nine percent of human DNA doesn't code for anything used by the human body. Series: "Stem Cell Channel" [Science] [Show ID: 33492]

dna genetics junk alysson muotri rusty gage miles wilkinson