📽 BBC Documentary - Order And Disorder
1⃣ goo.gl/tb5SHc
2⃣ goo.gl/Xmvr2z
3⃣ goo.gl/UuF0bc
4⃣ goo.gl/WU2nfD
🔊 You can use @SaveVideoBot to simply download the videos form youtube by just sending the link(s) to the bot!
1⃣ goo.gl/tb5SHc
2⃣ goo.gl/Xmvr2z
3⃣ goo.gl/UuF0bc
4⃣ goo.gl/WU2nfD
🔊 You can use @SaveVideoBot to simply download the videos form youtube by just sending the link(s) to the bot!
YouTube
Documentary - Order And Disorder 1of2 Energy
Professor Jim Al-Khalili investigates the important concepts of energy and information.
#سلسله_سمینارهای_هفتگی گروه سیستم های پیچیده شهید بهشتی
علاقه مندان می توانند برای ارائه موضوعات خود به ادمین پیام داده یا به صورت حضوری در جلسه مطرح نمایند.
@onmjnl
علاقه مندان می توانند برای ارائه موضوعات خود به ادمین پیام داده یا به صورت حضوری در جلسه مطرح نمایند.
@onmjnl
🔵 "The Edge of Chaos"
http://bactra.org/notebooks/edge-of-chaos.html
http://bactra.org/notebooks/edge-of-chaos.html
📝 Bose-Einstein Condensation in Complex Networks
http://www.barabasilab.com/pubs/CCNR-ALB_Publications/200106-01_PhysRevLtr-Bose-Einstein/200106-01_PhysRevLtr-Bose-Einstein.pdf
http://www.barabasilab.com/pubs/CCNR-ALB_Publications/200106-01_PhysRevLtr-Bose-Einstein/200106-01_PhysRevLtr-Bose-Einstein.pdf
💡 REVIEWS:
📝 Network #medicine: a network-based
approach to human disease
Albert-László #Barabási, Natali Gulbahce and Joseph Loscalzo
https://goo.gl/ttka2U
📌 ABSTRACT:
Given the functional interdependencies between the molecular components in a
human cell, a disease is rarely a consequence of an abnormality in a single gene, but reflects
the perturbations of the complex intracellular and intercellular network that links tissue
and organ systems. The emerging tools of network medicine offer a platform to explore
systematically not only the molecular complexity of a particular disease, leading to the
identification of disease modules and pathways, but also the molecular relationships among
apparently distinct (patho)phenotypes. Advances in this direction are essential for identifying
new disease genes, for uncovering the biological significance of disease-associated
mutations identified by genome-wide association studies and full-genome sequencing, and
for identifying drug targets and biomarkers for complex diseases.
📝 Network #medicine: a network-based
approach to human disease
Albert-László #Barabási, Natali Gulbahce and Joseph Loscalzo
https://goo.gl/ttka2U
📌 ABSTRACT:
Given the functional interdependencies between the molecular components in a
human cell, a disease is rarely a consequence of an abnormality in a single gene, but reflects
the perturbations of the complex intracellular and intercellular network that links tissue
and organ systems. The emerging tools of network medicine offer a platform to explore
systematically not only the molecular complexity of a particular disease, leading to the
identification of disease modules and pathways, but also the molecular relationships among
apparently distinct (patho)phenotypes. Advances in this direction are essential for identifying
new disease genes, for uncovering the biological significance of disease-associated
mutations identified by genome-wide association studies and full-genome sequencing, and
for identifying drug targets and biomarkers for complex diseases.
💡 REVIEWS:
📝 NETWORK BIOLOGY:
UNDERSTANDING THE CELL’S FUNCTIONAL ORGANIZATION
Albert-László #Barabási & Zoltán N. Oltvai
https://goo.gl/it6tlU
📌 ABSTRACT:
A key aim of postgenomic biomedical research is to systematically catalogue all molecules and
their interactions within a living cell. There is a clear need to understand how these molecules and the interactions between them determine the function of this enormously complex machinery, both in isolation and when surrounded by other cells. Rapid advances in network biology indicate that cellular networks are governed by universal laws and offer a new conceptual framework that could potentially revolutionize our view of biology and disease pathologies in the twenty-first century.
📝 NETWORK BIOLOGY:
UNDERSTANDING THE CELL’S FUNCTIONAL ORGANIZATION
Albert-László #Barabási & Zoltán N. Oltvai
https://goo.gl/it6tlU
📌 ABSTRACT:
A key aim of postgenomic biomedical research is to systematically catalogue all molecules and
their interactions within a living cell. There is a clear need to understand how these molecules and the interactions between them determine the function of this enormously complex machinery, both in isolation and when surrounded by other cells. Rapid advances in network biology indicate that cellular networks are governed by universal laws and offer a new conceptual framework that could potentially revolutionize our view of biology and disease pathologies in the twenty-first century.
Forwarded from انجمن علمی فیزیک بهشتی (SBU)
سمینار عمومی هفتگی، سه شنبه ساعت 16 سالن ابن هیثم دانشکده فیزیک @sbu_physics