Podcasts about molecular explorations

Explores cellular anthropology to understand how variation in human regulatory elements can mediate morphological evolution and individual variation of the craniofacial form. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32973]

Explores cellular anthropology to understand how variation in human regulatory elements can mediate morphological evolution and individual variation of the craniofacial form. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32973]

Exploring cellular anthropology to understand how variation in human regulatory elements can mediate morphological evolution and individual variation of the craniofacial form. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32973]

Exploring cellular anthropology to understand how variation in human regulatory elements can mediate morphological evolution and individual variation of the craniofacial form. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32973]

Exploring cellular anthropology to understand how variation in human regulatory elements can mediate morphological evolution and individual variation of the craniofacial form. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32973]

Exploring cellular anthropology to understand how variation in human regulatory elements can mediate morphological evolution and individual variation of the craniofacial form. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32973]

Exploring cellular anthropology to understand how variation in human regulatory elements can mediate morphological evolution and individual variation of the craniofacial form. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32973]

Exploring cellular anthropology to understand how variation in human regulatory elements can mediate morphological evolution and individual variation of the craniofacial form. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32973]

The search for human-specific genome changes underlying the unique neocortex expansion found only in the human brain. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32971]

The search for human-specific genome changes underlying the unique neocortex expansion found only in the human brain. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32971]

The search for human-specific genome changes underlying the unique neocortex expansion found only in the human brain. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32971]

The search for human-specific genome changes underlying the unique neocortex expansion found only in the human brain. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32971]

The search for human-specific genome changes underlying the unique neocortex expansion found only in the human brain. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32971]

The search for human-specific genome changes underlying the unique neocortex expansion found only in the human brain. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32971]

The search for human-specific genome changes underlying the unique neocortex expansion found only in the human brain. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32971]

The search for human-specific genome changes underlying the unique neocortex expansion found only in the human brain. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32971]

Tracing evolution through past genomic events. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32974]

Tracing evolution through past genomic events. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32974]

Tracing evolution through past genomic events. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32974]

Tracing evolution through past genomic events. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32974]

Tracing evolution through past genomic events. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32974]

Tracing evolution through past genomic events. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32974]

Exploring cellular features of human brain development that are not represented in animal models and may reflect human or primate-specific evolutionary adaptations and how they also provide a roadmap for interpreting laboratory models of human brain development and evolution. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32972]

Exploring cellular features of human brain development that are not represented in animal models and may reflect human or primate-specific evolutionary adaptations and how they also provide a roadmap for interpreting laboratory models of human brain development and evolution. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32972]

Exploring cellular features of human brain development that are not represented in animal models and may reflect human or primate-specific evolutionary adaptations and how they also provide a roadmap for interpreting laboratory models of human brain development and evolution. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32972]

Exploring cellular features of human brain development that are not represented in animal models and may reflect human or primate-specific evolutionary adaptations and how they also provide a roadmap for interpreting laboratory models of human brain development and evolution. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32972]

Exploring cellular features of human brain development that are not represented in animal models and may reflect human or primate-specific evolutionary adaptations and how they also provide a roadmap for interpreting laboratory models of human brain development and evolution. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32972]

Exploring cellular features of human brain development that are not represented in animal models and may reflect human or primate-specific evolutionary adaptations and how they also provide a roadmap for interpreting laboratory models of human brain development and evolution. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32972]

Exploring the use of primate stem cell systems to understand the cellular and molecular mechanisms underlying species differences in cerebral cortex development. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32970]

Exploring the use of primate stem cell systems to understand the cellular and molecular mechanisms underlying species differences in cerebral cortex development. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32970]

Exploring the use of primate stem cell systems to understand the cellular and molecular mechanisms underlying species differences in cerebral cortex development. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32970]

Exploring the use of primate stem cell systems to understand the cellular and molecular mechanisms underlying species differences in cerebral cortex development. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32970]

Exploring the use of primate stem cell systems to understand the cellular and molecular mechanisms underlying species differences in cerebral cortex development. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32970]

Exploring the use of primate stem cell systems to understand the cellular and molecular mechanisms underlying species differences in cerebral cortex development. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32970]

This presentation provides a cellular and molecular analysis of comparative neural development in closely related hominids, which opens new avenues for understanding the differences in the neural underpinnings of cognition and neurological disease susceptibility between species. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32969]

This presentation provides a cellular and molecular analysis of comparative neural development in closely related hominids, which opens new avenues for understanding the differences in the neural underpinnings of cognition and neurological disease susceptibility between species. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32969]

This presentation provides a cellular and molecular analysis of comparative neural development in closely related hominids, which opens new avenues for understanding the differences in the neural underpinnings of cognition and neurological disease susceptibility between species. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32969]

This presentation provides a cellular and molecular analysis of comparative neural development in closely related hominids, which opens new avenues for understanding the differences in the neural underpinnings of cognition and neurological disease susceptibility between species. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32969]

New insights into the significance of the emergence of a human-specific gene on brain evolution. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32975]

New insights into the significance of the emergence of a human-specific gene on brain evolution. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32975]

New insights into the significance of the emergence of a human-specific gene on brain evolution. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32975]

New insights into the significance of the emergence of a human-specific gene on brain evolution. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32975]

Huxley and Darwin were among the first to appreciate the close evolutionary relationship of humans and other African great apes but also to ponder what genetic changes might make us human. Initial comparisons of human and chimpanzee genes, showed little difference (>99% identical) despite the numerous adaptations that must have occurred on the human lineage. Recent studies of more complex regions of our genome have revealed hotspots of dramatic evolutionary change. Within these regions are hundreds of new duplicate genes, several of which appear to be important in human-specific neuroanatomical adaptations. Paradoxically, this genetic complexity has led to mutations causing childhood diseases suggesting that human-specific genes and increased disease burden are tightly linked. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32976]

Huxley and Darwin were among the first to appreciate the close evolutionary relationship of humans and other African great apes but also to ponder what genetic changes might make us human. Initial comparisons of human and chimpanzee genes, showed little difference (>99% identical) despite the numerous adaptations that must have occurred on the human lineage. Recent studies of more complex regions of our genome have revealed hotspots of dramatic evolutionary change. Within these regions are hundreds of new duplicate genes, several of which appear to be important in human-specific neuroanatomical adaptations. Paradoxically, this genetic complexity has led to mutations causing childhood diseases suggesting that human-specific genes and increased disease burden are tightly linked. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32976]

Huxley and Darwin were among the first to appreciate the close evolutionary relationship of humans and other African great apes but also to ponder what genetic changes might make us human. Initial comparisons of human and chimpanzee genes, showed little difference (>99% identical) despite the numerous adaptations that must have occurred on the human lineage. Recent studies of more complex regions of our genome have revealed hotspots of dramatic evolutionary change. Within these regions are hundreds of new duplicate genes, several of which appear to be important in human-specific neuroanatomical adaptations. Paradoxically, this genetic complexity has led to mutations causing childhood diseases suggesting that human-specific genes and increased disease burden are tightly linked. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32976]

Huxley and Darwin were among the first to appreciate the close evolutionary relationship of humans and other African great apes but also to ponder what genetic changes might make us human. Initial comparisons of human and chimpanzee genes, showed little difference (>99% identical) despite the numerous adaptations that must have occurred on the human lineage. Recent studies of more complex regions of our genome have revealed hotspots of dramatic evolutionary change. Within these regions are hundreds of new duplicate genes, several of which appear to be important in human-specific neuroanatomical adaptations. Paradoxically, this genetic complexity has led to mutations causing childhood diseases suggesting that human-specific genes and increased disease burden are tightly linked. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32976]

The way cells differentiate to eventually form the human brain and all the unique connections that make us human is ultimately the result of processes forged in evolution. Three experts share their investigations into characteristics of the human genome and its changes throughout evolution that make us human. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32928]

The way cells differentiate to eventually form the human brain and all the unique connections that make us human is ultimately the result of processes forged in evolution. Three experts share their investigations into characteristics of the human genome and its changes throughout evolution that make us human. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32928]

The way cells differentiate to eventually form the human brain and all the unique connections that make us human is ultimately the result of processes forged in evolution. Three experts share their investigations into characteristics of the human genome and its changes throughout evolution that make us human. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32928]

The way cells differentiate to eventually form the human brain and all the unique connections that make us human is ultimately the result of processes forged in evolution. Three experts share their investigations into characteristics of the human genome and its changes throughout evolution that make us human. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32928]

Welcome and introductory remarks to the symposium: Cellular and Molecular Explorations of Anthropogeny Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32977]

Concluding remarks and question and answer session for the symposium: Cellular and Molecular Explorations of Anthropogeny. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32978]

Concluding remarks and question and answer session for the symposium: Cellular and Molecular Explorations of Anthropogeny. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32978]

Welcome and introductory remarks to the symposium: Cellular and Molecular Explorations of Anthropogeny Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32977]

Exploring cellular anthropology to understand how variation in human regulatory elements can mediate morphological evolution and individual variation of the craniofacial form. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32973]

Exploring cellular anthropology to understand how variation in human regulatory elements can mediate morphological evolution and individual variation of the craniofacial form. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32973]

Exploring cellular anthropology to understand how variation in human regulatory elements can mediate morphological evolution and individual variation of the craniofacial form. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32973]

Concluding remarks and question and answer session for the symposium: Cellular and Molecular Explorations of Anthropogeny. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32978]

Concluding remarks and question and answer session for the symposium: Cellular and Molecular Explorations of Anthropogeny. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32978]

Welcome and introductory remarks to the symposium: Cellular and Molecular Explorations of Anthropogeny Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32977]

Exploring cellular anthropology to understand how variation in human regulatory elements can mediate morphological evolution and individual variation of the craniofacial form. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32973]

Welcome and introductory remarks to the symposium: Cellular and Molecular Explorations of Anthropogeny Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32977]

The human brain is one of, if not the most important factor that distinguishes our species from all others. Three experts explore the use of stem cells in understanding the primate brain, genes that guided the evolution of the human brain, and the features that enabled the expansion of human neural characteristics. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32927]

The human brain is one of, if not the most important factor that distinguishes our species from all others. Three experts explore the use of stem cells in understanding the primate brain, genes that guided the evolution of the human brain, and the features that enabled the expansion of human neural characteristics. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32927]

The human brain is one of, if not the most important factor that distinguishes our species from all others. Three experts explore the use of stem cells in understanding the primate brain, genes that guided the evolution of the human brain, and the features that enabled the expansion of human neural characteristics. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32927]

The human brain is one of, if not the most important factor that distinguishes our species from all others. Three experts explore the use of stem cells in understanding the primate brain, genes that guided the evolution of the human brain, and the features that enabled the expansion of human neural characteristics. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32927]

The human brain is one of, if not the most important factor that distinguishes our species from all others. Three experts explore the use of stem cells in understanding the primate brain, genes that guided the evolution of the human brain, and the features that enabled the expansion of human neural characteristics. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32927]

The human brain is one of, if not the most important factor that distinguishes our species from all others. Three experts explore the use of stem cells in understanding the primate brain, genes that guided the evolution of the human brain, and the features that enabled the expansion of human neural characteristics. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32927]

The Salk Institute's Rusty Gage and University of Washington's Evan Eichler explore the mechanisms and evolutionary pathways that have differentiated human neural development and allowed for the emergence of genes found only in humans. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32926]

The Salk Institute's Rusty Gage and University of Washington's Evan Eichler explore the mechanisms and evolutionary pathways that have differentiated human neural development and allowed for the emergence of genes found only in humans. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32926]

The Salk Institute's Rusty Gage and University of Washington's Evan Eichler explore the mechanisms and evolutionary pathways that have differentiated human neural development and allowed for the emergence of genes found only in humans. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32926]

The Salk Institute's Rusty Gage and University of Washington's Evan Eichler explore the mechanisms and evolutionary pathways that have differentiated human neural development and allowed for the emergence of genes found only in humans. Series: "CARTA - Center for Academic Research and Training in Anthropogeny" [Science] [Show ID: 32926]