- published: 11 Feb 2021
- views: 6868
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Lawrence Berkeley National Laboratory
The Lawrence Berkeley National Laboratory (LBNL or LBL), commonly referred to as Berkeley Lab, is a United States national laboratory located in the Berkeley Hills near Berkeley, California that conducts scientific research on behalf of the United States Department of Energy (DOE). It is managed and operated by the University of California, The laboratory overlooks University of California, Berkeley's main campus.
History
The laboratory was founded in 1931 as the Radiation Laboratory of the University of California, associated with the Physics Department, on August 26 by Ernest Lawrence. It centered physics research around his new instrument, the cyclotron, a type of particle accelerator for which he won the Nobel Prize in Physics in 1939. Throughout the 1930s, Lawrence pushed to create larger and larger machines for physics research, courting private philanthropists for funding. After the laboratory was scooped on a number of fundamental discoveries that they felt they ought to have made, the "cyclotroneers" began to collaborate more closely with the department's theoretical physicists, led by Robert Oppenheimer. The lab moved to its site on the hill above campus in 1940 as its machines, specifically the 184-inch (4.67 m) cyclotron, became too large for the university grounds.
This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/Lawrence_Berkeley_National_Laboratory
Podcasts:
-
Welcome to Berkeley Lab
Learn more about Berkeley Lab’s research efforts, hear from the scientists who conduct this important work, and peek inside the facilities they use to help expand their understanding of the world, by taking a live, interactive tour. Instagram: https://www.instagram.com/berkeleylab/ Twitter: https://twitter.com/berkeleylab LinkedIn: https://www.linkedin.com/company/lawrence-berkeley-national-laboratory/ Facebook: https://www.facebook.com/BerkeleyLab/ More Berkeley Lab news: http://bit.ly/BerkeleyLabNews Subscribe: https://youtube.com/berkeleylab
published: 11 Feb 2021 -
From the Archives: Early Views of UC Berkeley Campus and LBNL
This undated video of early UC campus views includes footage of the UC Berkeley Radiation Lab, or the “Rad Lab” as it was known, which was part of what would become Lawrence Berkeley National Laboratory. Twitter: https://twitter.com/berkeleylab LinkedIn: https://www.linkedin.com/company/lawrence-berkeley-national-laboratory/ Instagram: https://www.instagram.com/berkeleylab/ Facebook: https://www.facebook.com/BerkeleyLab/ More Berkeley Lab news: http://bit.ly/BerkeleyLabNews Subscribe: https://youtube.com/berkeleylab
published: 18 Feb 2023 -
you bxxxh wanna fxxk with me?(Feat.LBNL)
published: 11 Nov 2022 -
Zion B x Tee Valentine - LBL (Official Video) ft. Glove
STREAM & DOWNLOAD NOW: https://ditto.fm/l-b-l Find Us Here: @zionbattles @tee.valentine http://vevo.ly/WIb6q8
published: 25 Feb 2021 -
Berkeley Lab Aerial Tour
Tour Berkeley Lab from above in this video, which uses drone footage taken at the Lab in 2020. The video shows the historic, domed Advanced Light Source building that appears in the lab logo; the Molecular Foundry that encompasses nanoscience research; Shyh Wang Hall, which houses the National Energy Research Scientific Computing Center (NERSC) supercomputers; the rotating FLEXLAB building, which is a test bed for energy efficiency in buildings; and the Integrative Genomics Building, which has a focus on plant and microbial genomics research and is the newest addition to the more than 100 buildings on the Lab’s 200-acre site. Instagram: https://www.instagram.com/berkeleylab/ Twitter: https://twitter.com/berkeleylab LinkedIn: https://www.linkedin.com/company/lawrence-berkeley-national-lab...
published: 03 Sep 2020 -
Berkeley Lab Virtual Tours
Berkeley Lab is now offering virtual tours of many of its facilities. Please go to https://visits.lbl.gov/ to learn more and sign up. Instagram: https://www.instagram.com/berkeleylab/ Twitter: https://twitter.com/berkeleylab LinkedIn: https://www.linkedin.com/company/lawrence-berkeley-national-laboratory/ Facebook: https://www.facebook.com/BerkeleyLab/ More Berkeley Lab news: http://bit.ly/BerkeleyLabNews Subscribe: https://youtube.com/berkeleylab
published: 01 Apr 2021 -
Abby Dernburg (UC Berkeley / LBNL / HHMI) Part 1: Meiosis: an Overview
http://www.ibiology.org/ibioseminars/abby-dernburg-part-1.html Lecture Overview: In Part 1, Dr. Dernburg begins with an overview of meiosis, the process of cell division that gives rise to germ cells such as eggs, sperm, pollen and spores, and how it differs from mitosis. Dernburg explains that C. elegans is an excellent model system for studying meiosis because the gonads contain a complete temporal progression of meiotic stages. Development through pairing, synapsis, recombination and segregation can be followed easily since C. elegans are transparent. Taking advantage of the C. elegans system, Dernburg and her lab have studied the process of homolog pairing, an event that is specific to meiosis and required for recombination. In her second and third lectures, Dernburg delves deeper...
published: 21 Oct 2014 -
Guap (feat. LANA & 문경동)
Provided to YouTube by CONSALAD Guap (feat. LANA & 문경동) · LBNL Restart ℗ 사운드리퍼블리카 Released on: 2022-07-15 Lyricist: LBNL Lyricist: LANA Lyricist: 문경동 Composer: SOSA Composer: LBNL Arranger: SOSA Arranger: LBNL Auto-generated by YouTube.
published: 15 Jul 2022 -
Blake Simmons (JBEI, LBNL) 2: Conversion of Biomass into Aviation Biofuels
https://www.ibiology.org/bioengineering/biofuels-optimization Biofuels have the potential to provide a sustainable and renewable way to power our transportation systems. Learn how researchers are working to design biofuel production pathways to be both efficient and affordable at global scales. Biofuels have been around for decades, but interest in them has grown considerably in recent years due to climate change. While they have the potential to provide a sustainable and renewable way to power our transportation systems, Dr. Blake Simmons points out that in order to become a viable replacement for fossil fuels, biofuels must also be efficient and affordable at global scales. In his first talk, he provides an overview of the advantages of using biofuels and walks through the biochemical ...
published: 15 Jul 2020 -
Pioneer (feat. DeepSik & Fire Fild)
Provided to YouTube by CONSALAD Pioneer (feat. DeepSik & Fire Fild) · LBNL Restart ℗ 사운드리퍼블리카 Released on: 2022-07-15 Lyricist: LBNL Lyricist: DeepSik Lyricist: Fire Fild Composer: LBNL Arranger: LBNL Auto-generated by YouTube.
published: 15 Jul 2022
developed with YouTube
2:32
Welcome to Berkeley Lab
- Order: Reorder
- Duration: 2:32
- Uploaded Date: 11 Feb 2021
- views: 6868
Learn more about Berkeley Lab’s research efforts, hear from the scientists who conduct this important work, and peek inside the facilities they use to help expa...
Learn more about Berkeley Lab’s research efforts, hear from the scientists who conduct this important work, and peek inside the facilities they use to help expand their understanding of the world, by taking a live, interactive tour.
Instagram: https://www.instagram.com/berkeleylab/
Twitter: https://twitter.com/berkeleylab
LinkedIn: https://www.linkedin.com/company/lawrence-berkeley-national-laboratory/
Facebook: https://www.facebook.com/BerkeleyLab/
More Berkeley Lab news: http://bit.ly/BerkeleyLabNews
Subscribe: https://youtube.com/berkeleylab
https://wn.com/Welcome_To_Berkeley_Lab
Learn more about Berkeley Lab’s research efforts, hear from the scientists who conduct this important work, and peek inside the facilities they use to help expand their understanding of the world, by taking a live, interactive tour.
Instagram: https://www.instagram.com/berkeleylab/
Twitter: https://twitter.com/berkeleylab
LinkedIn: https://www.linkedin.com/company/lawrence-berkeley-national-laboratory/
Facebook: https://www.facebook.com/BerkeleyLab/
More Berkeley Lab news: http://bit.ly/BerkeleyLabNews
Subscribe: https://youtube.com/berkeleylab
9:46
From the Archives: Early Views of UC Berkeley Campus and LBNL
- Order: Reorder
- Duration: 9:46
- Uploaded Date: 18 Feb 2023
- views: 330
This undated video of early UC campus views includes footage of the UC Berkeley Radiation Lab, or the “Rad Lab” as it was known, which was part of what would be...
This undated video of early UC campus views includes footage of the UC Berkeley Radiation Lab, or the “Rad Lab” as it was known, which was part of what would become Lawrence Berkeley National Laboratory.
Twitter: https://twitter.com/berkeleylab
LinkedIn: https://www.linkedin.com/company/lawrence-berkeley-national-laboratory/
Instagram: https://www.instagram.com/berkeleylab/
Facebook: https://www.facebook.com/BerkeleyLab/
More Berkeley Lab news: http://bit.ly/BerkeleyLabNews
Subscribe: https://youtube.com/berkeleylab
https://wn.com/From_The_Archives_Early_Views_Of_Uc_Berkeley_Campus_And_Lbnl
This undated video of early UC campus views includes footage of the UC Berkeley Radiation Lab, or the “Rad Lab” as it was known, which was part of what would become Lawrence Berkeley National Laboratory.
Twitter: https://twitter.com/berkeleylab
LinkedIn: https://www.linkedin.com/company/lawrence-berkeley-national-laboratory/
Instagram: https://www.instagram.com/berkeleylab/
Facebook: https://www.facebook.com/BerkeleyLab/
More Berkeley Lab news: http://bit.ly/BerkeleyLabNews
Subscribe: https://youtube.com/berkeleylab
- published: 18 Feb 2023
- views: 330
2:12
you bxxxh wanna fxxk with me?(Feat.LBNL)
- Order: Reorder
- Duration: 2:12
- Uploaded Date: 11 Nov 2022
- views: 1153
- published: 11 Nov 2022
- views: 1153
2:31
Zion B x Tee Valentine - LBL (Official Video) ft. Glove
- Order: Reorder
- Duration: 2:31
- Uploaded Date: 25 Feb 2021
- views: 59663
STREAM & DOWNLOAD NOW: https://ditto.fm/l-b-l
Find Us Here:
@zionbattles
@tee.valentine
http://vevo.ly/WIb6q8
STREAM & DOWNLOAD NOW: https://ditto.fm/l-b-l
Find Us Here:
@zionbattles
@tee.valentine
http://vevo.ly/WIb6q8
https://wn.com/Zion_B_X_Tee_Valentine_Lbl_(Official_Video)_Ft._Glove
STREAM & DOWNLOAD NOW: https://ditto.fm/l-b-l
Find Us Here:
@zionbattles
@tee.valentine
http://vevo.ly/WIb6q8
- published: 25 Feb 2021
- views: 59663
2:12
Berkeley Lab Aerial Tour
- Order: Reorder
- Duration: 2:12
- Uploaded Date: 03 Sep 2020
- views: 3967
Tour Berkeley Lab from above in this video, which uses drone footage taken at the Lab in 2020. The video shows the historic, domed Advanced Light Source buildin...
Tour Berkeley Lab from above in this video, which uses drone footage taken at the Lab in 2020. The video shows the historic, domed Advanced Light Source building that appears in the lab logo; the Molecular Foundry that encompasses nanoscience research; Shyh Wang Hall, which houses the National Energy Research Scientific Computing Center (NERSC) supercomputers; the rotating FLEXLAB building, which is a test bed for energy efficiency in buildings; and the Integrative Genomics Building, which has a focus on plant and microbial genomics research and is the newest addition to the more than 100 buildings on the Lab’s 200-acre site.
Instagram: https://www.instagram.com/berkeleylab/
Twitter: https://twitter.com/berkeleylab
LinkedIn: https://www.linkedin.com/company/lawrence-berkeley-national-laboratory/
Facebook: https://www.facebook.com/BerkeleyLab/
More Berkeley Lab news: http://bit.ly/BerkeleyLabNews
Subscribe: https://youtube.com/berkeleylab
https://wn.com/Berkeley_Lab_Aerial_Tour
Tour Berkeley Lab from above in this video, which uses drone footage taken at the Lab in 2020. The video shows the historic, domed Advanced Light Source building that appears in the lab logo; the Molecular Foundry that encompasses nanoscience research; Shyh Wang Hall, which houses the National Energy Research Scientific Computing Center (NERSC) supercomputers; the rotating FLEXLAB building, which is a test bed for energy efficiency in buildings; and the Integrative Genomics Building, which has a focus on plant and microbial genomics research and is the newest addition to the more than 100 buildings on the Lab’s 200-acre site.
Instagram: https://www.instagram.com/berkeleylab/
Twitter: https://twitter.com/berkeleylab
LinkedIn: https://www.linkedin.com/company/lawrence-berkeley-national-laboratory/
Facebook: https://www.facebook.com/BerkeleyLab/
More Berkeley Lab news: http://bit.ly/BerkeleyLabNews
Subscribe: https://youtube.com/berkeleylab
- published: 03 Sep 2020
- views: 3967
1:01
Berkeley Lab Virtual Tours
- Order: Reorder
- Duration: 1:01
- Uploaded Date: 01 Apr 2021
- views: 1408
Berkeley Lab is now offering virtual tours of many of its facilities. Please go to https://visits.lbl.gov/ to learn more and sign up.
Instagram: https://www.in...
Berkeley Lab is now offering virtual tours of many of its facilities. Please go to https://visits.lbl.gov/ to learn more and sign up.
Instagram: https://www.instagram.com/berkeleylab/
Twitter: https://twitter.com/berkeleylab
LinkedIn: https://www.linkedin.com/company/lawrence-berkeley-national-laboratory/
Facebook: https://www.facebook.com/BerkeleyLab/
More Berkeley Lab news: http://bit.ly/BerkeleyLabNews
Subscribe: https://youtube.com/berkeleylab
https://wn.com/Berkeley_Lab_Virtual_Tours
Berkeley Lab is now offering virtual tours of many of its facilities. Please go to https://visits.lbl.gov/ to learn more and sign up.
Instagram: https://www.instagram.com/berkeleylab/
Twitter: https://twitter.com/berkeleylab
LinkedIn: https://www.linkedin.com/company/lawrence-berkeley-national-laboratory/
Facebook: https://www.facebook.com/BerkeleyLab/
More Berkeley Lab news: http://bit.ly/BerkeleyLabNews
Subscribe: https://youtube.com/berkeleylab
- published: 01 Apr 2021
- views: 1408
19:20
Abby Dernburg (UC Berkeley / LBNL / HHMI) Part 1: Meiosis: an Overview
- Order: Reorder
- Duration: 19:20
- Uploaded Date: 21 Oct 2014
- views: 15418
http://www.ibiology.org/ibioseminars/abby-dernburg-part-1.html
Lecture Overview:
In Part 1, Dr. Dernburg begins with an overview of meiosis, the process of cel...
http://www.ibiology.org/ibioseminars/abby-dernburg-part-1.html
Lecture Overview:
In Part 1, Dr. Dernburg begins with an overview of meiosis, the process of cell division that gives rise to germ cells such as eggs, sperm, pollen and spores, and how it differs from mitosis. Dernburg explains that C. elegans is an excellent model system for studying meiosis because the gonads contain a complete temporal progression of meiotic stages. Development through pairing, synapsis, recombination and segregation can be followed easily since C. elegans are transparent. Taking advantage of the C. elegans system, Dernburg and her lab have studied the process of homolog pairing, an event that is specific to meiosis and required for recombination.
In her second and third lectures, Dernburg delves deeper into the question of how homologous pairs of chromosomes find each other and how they undergo pairing and synapsis. She describes how members of her lab found that each chromosome has a region called a pairing center that is required for homolog pairing. They were able to show that each pairing center recruits one of four related zinc finger proteins that, in turn, interact with the proteins SUN-1 and ZYG-12, which are anchored in the nuclear envelope. The cytosolic portion of ZYG-12 interacts with motor protein dynein forming a bridge or link between the chromosomes and the microtubule cystoskeleton. Using confocal imaging, Dernburg’s lab was able to track the movements of labeled chromosomes and their protein partners to try to decipher how these interactions lead to pairing and synapsis of chromosome homologs.
Speaker Bio:
Abby Dernburg is an Investigator of the Howard Hughes Medical Institute, a Professor of Molecular and Cell Biology at the University of California, Berkeley and a Senior Scientist in the Life Sciences Division of Lawrence Berkeley National Laboratory.
Dernburg has studied different aspects of chromosome biology for many years, beginning with her PhD studies in the lab of John Sedat at the University of California, San Francisco. Dernburg moved to Anne Villeneuve’s lab at Stanford University for post-doctoral training. There she combined genetic studies and microscopy to begin her investigations of meiosis in C. elegans. Since establishing her own lab at Berkeley, Dernburg has continued to unravel the complex process of chromosome pairing during meiosis in C. elegans.
Dernburg has received numerous awards for her work including the Edward Novitski Award from the Genetics Society of America, an Early Career Life Scientist Award from the American Society of Cell Biology and the Presidential Early Career Award for Scientists and Engineers.
https://wn.com/Abby_Dernburg_(Uc_Berkeley_Lbnl_Hhmi)_Part_1_Meiosis_An_Overview
http://www.ibiology.org/ibioseminars/abby-dernburg-part-1.html
Lecture Overview:
In Part 1, Dr. Dernburg begins with an overview of meiosis, the process of cell division that gives rise to germ cells such as eggs, sperm, pollen and spores, and how it differs from mitosis. Dernburg explains that C. elegans is an excellent model system for studying meiosis because the gonads contain a complete temporal progression of meiotic stages. Development through pairing, synapsis, recombination and segregation can be followed easily since C. elegans are transparent. Taking advantage of the C. elegans system, Dernburg and her lab have studied the process of homolog pairing, an event that is specific to meiosis and required for recombination.
In her second and third lectures, Dernburg delves deeper into the question of how homologous pairs of chromosomes find each other and how they undergo pairing and synapsis. She describes how members of her lab found that each chromosome has a region called a pairing center that is required for homolog pairing. They were able to show that each pairing center recruits one of four related zinc finger proteins that, in turn, interact with the proteins SUN-1 and ZYG-12, which are anchored in the nuclear envelope. The cytosolic portion of ZYG-12 interacts with motor protein dynein forming a bridge or link between the chromosomes and the microtubule cystoskeleton. Using confocal imaging, Dernburg’s lab was able to track the movements of labeled chromosomes and their protein partners to try to decipher how these interactions lead to pairing and synapsis of chromosome homologs.
Speaker Bio:
Abby Dernburg is an Investigator of the Howard Hughes Medical Institute, a Professor of Molecular and Cell Biology at the University of California, Berkeley and a Senior Scientist in the Life Sciences Division of Lawrence Berkeley National Laboratory.
Dernburg has studied different aspects of chromosome biology for many years, beginning with her PhD studies in the lab of John Sedat at the University of California, San Francisco. Dernburg moved to Anne Villeneuve’s lab at Stanford University for post-doctoral training. There she combined genetic studies and microscopy to begin her investigations of meiosis in C. elegans. Since establishing her own lab at Berkeley, Dernburg has continued to unravel the complex process of chromosome pairing during meiosis in C. elegans.
Dernburg has received numerous awards for her work including the Edward Novitski Award from the Genetics Society of America, an Early Career Life Scientist Award from the American Society of Cell Biology and the Presidential Early Career Award for Scientists and Engineers.
- published: 21 Oct 2014
- views: 15418
3:26
Guap (feat. LANA & 문경동)
- Order: Reorder
- Duration: 3:26
- Uploaded Date: 15 Jul 2022
- views: 135
Provided to YouTube by CONSALAD
Guap (feat. LANA & 문경동) · LBNL
Restart
℗ 사운드리퍼블리카
Released on: 2022-07-15
Lyricist: LBNL
Lyricist: LANA
Lyricist: 문경동
Compo...
Provided to YouTube by CONSALAD
Guap (feat. LANA & 문경동) · LBNL
Restart
℗ 사운드리퍼블리카
Released on: 2022-07-15
Lyricist: LBNL
Lyricist: LANA
Lyricist: 문경동
Composer: SOSA
Composer: LBNL
Arranger: SOSA
Arranger: LBNL
Auto-generated by YouTube.
https://wn.com/Guap_(Feat._Lana_문경동)
Provided to YouTube by CONSALAD
Guap (feat. LANA & 문경동) · LBNL
Restart
℗ 사운드리퍼블리카
Released on: 2022-07-15
Lyricist: LBNL
Lyricist: LANA
Lyricist: 문경동
Composer: SOSA
Composer: LBNL
Arranger: SOSA
Arranger: LBNL
Auto-generated by YouTube.
- published: 15 Jul 2022
- views: 135
28:39
Blake Simmons (JBEI, LBNL) 2: Conversion of Biomass into Aviation Biofuels
- Order: Reorder
- Duration: 28:39
- Uploaded Date: 15 Jul 2020
- views: 2996
https://www.ibiology.org/bioengineering/biofuels-optimization
Biofuels have the potential to provide a sustainable and renewable way to power our transportatio...
https://www.ibiology.org/bioengineering/biofuels-optimization
Biofuels have the potential to provide a sustainable and renewable way to power our transportation systems. Learn how researchers are working to design biofuel production pathways to be both efficient and affordable at global scales.
Biofuels have been around for decades, but interest in them has grown considerably in recent years due to climate change. While they have the potential to provide a sustainable and renewable way to power our transportation systems, Dr. Blake Simmons points out that in order to become a viable replacement for fossil fuels, biofuels must also be efficient and affordable at global scales. In his first talk, he provides an overview of the advantages of using biofuels and walks through the biochemical processes required in order to convert biomass into usable fuels. He also discusses the ideal properties for advanced biofuels, the projected markets for these fuels in the coming years, and some of the key challenges associated with optimization of advanced biofuel production.
In his second talk he reviews makeup of the plant cell wall and how hemicellulose, cellulose, and lignin can be broken down for use in aviation biofuel production. He describes the Joint BioEnergy Institute (JBEI) approach to maximize carbon efficiency at every step in the production of biofuels, from developing and feedstocks, deconstructing biomass, and use of microbes and enzymes to generate target intermediates for fuels. A major part of optimizing this process is the development of a one-pot process, in which conversion of biomass to fuel can be achieved in a single chamber.
Speaker Biography:
Dr. Blake Simmons is the Chief Technology Officer at the Joint BioEnergy Institute (JBEI) and Division Director for Biological Systems and Engineering at Berkeley Lab. He studied chemical engineering at the University of Washington as an undergraduate, and completed his Ph.D. at Tulane University. Dr. Simmons’ work focuses on development of new techniques and optimization of processes associated with advanced biofuels. He is adjunct faculty at the University of California, Berkeley and the University of Queensland.
http://www.jbei.org/people/leadership/blake-simmons
https://biosciences.lbl.gov/profiles/blake-simmons
https://wn.com/Blake_Simmons_(Jbei,_Lbnl)_2_Conversion_Of_Biomass_Into_Aviation_Biofuels
https://www.ibiology.org/bioengineering/biofuels-optimization
Biofuels have the potential to provide a sustainable and renewable way to power our transportation systems. Learn how researchers are working to design biofuel production pathways to be both efficient and affordable at global scales.
Biofuels have been around for decades, but interest in them has grown considerably in recent years due to climate change. While they have the potential to provide a sustainable and renewable way to power our transportation systems, Dr. Blake Simmons points out that in order to become a viable replacement for fossil fuels, biofuels must also be efficient and affordable at global scales. In his first talk, he provides an overview of the advantages of using biofuels and walks through the biochemical processes required in order to convert biomass into usable fuels. He also discusses the ideal properties for advanced biofuels, the projected markets for these fuels in the coming years, and some of the key challenges associated with optimization of advanced biofuel production.
In his second talk he reviews makeup of the plant cell wall and how hemicellulose, cellulose, and lignin can be broken down for use in aviation biofuel production. He describes the Joint BioEnergy Institute (JBEI) approach to maximize carbon efficiency at every step in the production of biofuels, from developing and feedstocks, deconstructing biomass, and use of microbes and enzymes to generate target intermediates for fuels. A major part of optimizing this process is the development of a one-pot process, in which conversion of biomass to fuel can be achieved in a single chamber.
Speaker Biography:
Dr. Blake Simmons is the Chief Technology Officer at the Joint BioEnergy Institute (JBEI) and Division Director for Biological Systems and Engineering at Berkeley Lab. He studied chemical engineering at the University of Washington as an undergraduate, and completed his Ph.D. at Tulane University. Dr. Simmons’ work focuses on development of new techniques and optimization of processes associated with advanced biofuels. He is adjunct faculty at the University of California, Berkeley and the University of Queensland.
http://www.jbei.org/people/leadership/blake-simmons
https://biosciences.lbl.gov/profiles/blake-simmons
- published: 15 Jul 2020
- views: 2996
4:06
Pioneer (feat. DeepSik & Fire Fild)
- Order: Reorder
- Duration: 4:06
- Uploaded Date: 15 Jul 2022
- views: 131
Provided to YouTube by CONSALAD
Pioneer (feat. DeepSik & Fire Fild) · LBNL
Restart
℗ 사운드리퍼블리카
Released on: 2022-07-15
Lyricist: LBNL
Lyricist: DeepSik
Lyri...
Provided to YouTube by CONSALAD
Pioneer (feat. DeepSik & Fire Fild) · LBNL
Restart
℗ 사운드리퍼블리카
Released on: 2022-07-15
Lyricist: LBNL
Lyricist: DeepSik
Lyricist: Fire Fild
Composer: LBNL
Arranger: LBNL
Auto-generated by YouTube.
https://wn.com/Pioneer_(Feat._Deepsik_Fire_Fild)
Provided to YouTube by CONSALAD
Pioneer (feat. DeepSik & Fire Fild) · LBNL
Restart
℗ 사운드리퍼블리카
Released on: 2022-07-15
Lyricist: LBNL
Lyricist: DeepSik
Lyricist: Fire Fild
Composer: LBNL
Arranger: LBNL
Auto-generated by YouTube.
- published: 15 Jul 2022
- views: 131
2:32
Welcome to Berkeley Lab
Learn more about Berkeley Lab’s research efforts, hear from the scientists who conduct thi...
published: 11 Feb 2021
Welcome to Berkeley Lab
Welcome to Berkeley Lab
- Report rights infringement
- published: 11 Feb 2021
- views: 6868
Learn more about Berkeley Lab’s research efforts, hear from the scientists who conduct this important work, and peek inside the facilities they use to help expand their understanding of the world, by taking a live, interactive tour.
Instagram: https://www.instagram.com/berkeleylab/
Twitter: https://twitter.com/berkeleylab
LinkedIn: https://www.linkedin.com/company/lawrence-berkeley-national-laboratory/
Facebook: https://www.facebook.com/BerkeleyLab/
More Berkeley Lab news: http://bit.ly/BerkeleyLabNews
Subscribe: https://youtube.com/berkeleylab
9:46
From the Archives: Early Views of UC Berkeley Campus and LBNL
This undated video of early UC campus views includes footage of the UC Berkeley Radiation ...
published: 18 Feb 2023
From the Archives: Early Views of UC Berkeley Campus and LBNL
From the Archives: Early Views of UC Berkeley Campus and LBNL
- Report rights infringement
- published: 18 Feb 2023
- views: 330
This undated video of early UC campus views includes footage of the UC Berkeley Radiation Lab, or the “Rad Lab” as it was known, which was part of what would become Lawrence Berkeley National Laboratory.
Twitter: https://twitter.com/berkeleylab
LinkedIn: https://www.linkedin.com/company/lawrence-berkeley-national-laboratory/
Instagram: https://www.instagram.com/berkeleylab/
Facebook: https://www.facebook.com/BerkeleyLab/
More Berkeley Lab news: http://bit.ly/BerkeleyLabNews
Subscribe: https://youtube.com/berkeleylab
2:12
you bxxxh wanna fxxk with me?(Feat.LBNL)
published: 11 Nov 2022
you bxxxh wanna fxxk with me?(Feat.LBNL)
you bxxxh wanna fxxk with me?(Feat.LBNL)
- Report rights infringement
- published: 11 Nov 2022
- views: 1153
2:31
Zion B x Tee Valentine - LBL (Official Video) ft. Glove
STREAM & DOWNLOAD NOW: https://ditto.fm/l-b-l
Find Us Here:
@zionbattles
@tee.valentine
...
published: 25 Feb 2021
Zion B x Tee Valentine - LBL (Official Video) ft. Glove
Zion B x Tee Valentine - LBL (Official Video) ft. Glove
- Report rights infringement
- published: 25 Feb 2021
- views: 59663
STREAM & DOWNLOAD NOW: https://ditto.fm/l-b-l
Find Us Here:
@zionbattles
@tee.valentine
http://vevo.ly/WIb6q8
2:12
Berkeley Lab Aerial Tour
Tour Berkeley Lab from above in this video, which uses drone footage taken at the Lab in 2...
published: 03 Sep 2020
Berkeley Lab Aerial Tour
Berkeley Lab Aerial Tour
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- published: 03 Sep 2020
- views: 3967
Tour Berkeley Lab from above in this video, which uses drone footage taken at the Lab in 2020. The video shows the historic, domed Advanced Light Source building that appears in the lab logo; the Molecular Foundry that encompasses nanoscience research; Shyh Wang Hall, which houses the National Energy Research Scientific Computing Center (NERSC) supercomputers; the rotating FLEXLAB building, which is a test bed for energy efficiency in buildings; and the Integrative Genomics Building, which has a focus on plant and microbial genomics research and is the newest addition to the more than 100 buildings on the Lab’s 200-acre site.
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1:01
Berkeley Lab Virtual Tours
Berkeley Lab is now offering virtual tours of many of its facilities. Please go to https:/...
published: 01 Apr 2021
Berkeley Lab Virtual Tours
Berkeley Lab Virtual Tours
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- published: 01 Apr 2021
- views: 1408
Berkeley Lab is now offering virtual tours of many of its facilities. Please go to https://visits.lbl.gov/ to learn more and sign up.
Instagram: https://www.instagram.com/berkeleylab/
Twitter: https://twitter.com/berkeleylab
LinkedIn: https://www.linkedin.com/company/lawrence-berkeley-national-laboratory/
Facebook: https://www.facebook.com/BerkeleyLab/
More Berkeley Lab news: http://bit.ly/BerkeleyLabNews
Subscribe: https://youtube.com/berkeleylab
19:20
Abby Dernburg (UC Berkeley / LBNL / HHMI) Part 1: Meiosis: an Overview
http://www.ibiology.org/ibioseminars/abby-dernburg-part-1.html
Lecture Overview:
In Part ...
published: 21 Oct 2014
Abby Dernburg (UC Berkeley / LBNL / HHMI) Part 1: Meiosis: an Overview
Abby Dernburg (UC Berkeley / LBNL / HHMI) Part 1: Meiosis: an Overview
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- published: 21 Oct 2014
- views: 15418
http://www.ibiology.org/ibioseminars/abby-dernburg-part-1.html
Lecture Overview:
In Part 1, Dr. Dernburg begins with an overview of meiosis, the process of cell division that gives rise to germ cells such as eggs, sperm, pollen and spores, and how it differs from mitosis. Dernburg explains that C. elegans is an excellent model system for studying meiosis because the gonads contain a complete temporal progression of meiotic stages. Development through pairing, synapsis, recombination and segregation can be followed easily since C. elegans are transparent. Taking advantage of the C. elegans system, Dernburg and her lab have studied the process of homolog pairing, an event that is specific to meiosis and required for recombination.
In her second and third lectures, Dernburg delves deeper into the question of how homologous pairs of chromosomes find each other and how they undergo pairing and synapsis. She describes how members of her lab found that each chromosome has a region called a pairing center that is required for homolog pairing. They were able to show that each pairing center recruits one of four related zinc finger proteins that, in turn, interact with the proteins SUN-1 and ZYG-12, which are anchored in the nuclear envelope. The cytosolic portion of ZYG-12 interacts with motor protein dynein forming a bridge or link between the chromosomes and the microtubule cystoskeleton. Using confocal imaging, Dernburg’s lab was able to track the movements of labeled chromosomes and their protein partners to try to decipher how these interactions lead to pairing and synapsis of chromosome homologs.
Speaker Bio:
Abby Dernburg is an Investigator of the Howard Hughes Medical Institute, a Professor of Molecular and Cell Biology at the University of California, Berkeley and a Senior Scientist in the Life Sciences Division of Lawrence Berkeley National Laboratory.
Dernburg has studied different aspects of chromosome biology for many years, beginning with her PhD studies in the lab of John Sedat at the University of California, San Francisco. Dernburg moved to Anne Villeneuve’s lab at Stanford University for post-doctoral training. There she combined genetic studies and microscopy to begin her investigations of meiosis in C. elegans. Since establishing her own lab at Berkeley, Dernburg has continued to unravel the complex process of chromosome pairing during meiosis in C. elegans.
Dernburg has received numerous awards for her work including the Edward Novitski Award from the Genetics Society of America, an Early Career Life Scientist Award from the American Society of Cell Biology and the Presidential Early Career Award for Scientists and Engineers.
3:26
Guap (feat. LANA & 문경동)
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Guap (feat. LANA & 문경동) · LBNL
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℗ 사운드리퍼블리카
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published: 15 Jul 2022
Guap (feat. LANA & 문경동)
Guap (feat. LANA & 문경동)
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Guap (feat. LANA & 문경동) · LBNL
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℗ 사운드리퍼블리카
Released on: 2022-07-15
Lyricist: LBNL
Lyricist: LANA
Lyricist: 문경동
Composer: SOSA
Composer: LBNL
Arranger: SOSA
Arranger: LBNL
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28:39
Blake Simmons (JBEI, LBNL) 2: Conversion of Biomass into Aviation Biofuels
https://www.ibiology.org/bioengineering/biofuels-optimization
Biofuels have the potential...
published: 15 Jul 2020
Blake Simmons (JBEI, LBNL) 2: Conversion of Biomass into Aviation Biofuels
Blake Simmons (JBEI, LBNL) 2: Conversion of Biomass into Aviation Biofuels
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- published: 15 Jul 2020
- views: 2996
https://www.ibiology.org/bioengineering/biofuels-optimization
Biofuels have the potential to provide a sustainable and renewable way to power our transportation systems. Learn how researchers are working to design biofuel production pathways to be both efficient and affordable at global scales.
Biofuels have been around for decades, but interest in them has grown considerably in recent years due to climate change. While they have the potential to provide a sustainable and renewable way to power our transportation systems, Dr. Blake Simmons points out that in order to become a viable replacement for fossil fuels, biofuels must also be efficient and affordable at global scales. In his first talk, he provides an overview of the advantages of using biofuels and walks through the biochemical processes required in order to convert biomass into usable fuels. He also discusses the ideal properties for advanced biofuels, the projected markets for these fuels in the coming years, and some of the key challenges associated with optimization of advanced biofuel production.
In his second talk he reviews makeup of the plant cell wall and how hemicellulose, cellulose, and lignin can be broken down for use in aviation biofuel production. He describes the Joint BioEnergy Institute (JBEI) approach to maximize carbon efficiency at every step in the production of biofuels, from developing and feedstocks, deconstructing biomass, and use of microbes and enzymes to generate target intermediates for fuels. A major part of optimizing this process is the development of a one-pot process, in which conversion of biomass to fuel can be achieved in a single chamber.
Speaker Biography:
Dr. Blake Simmons is the Chief Technology Officer at the Joint BioEnergy Institute (JBEI) and Division Director for Biological Systems and Engineering at Berkeley Lab. He studied chemical engineering at the University of Washington as an undergraduate, and completed his Ph.D. at Tulane University. Dr. Simmons’ work focuses on development of new techniques and optimization of processes associated with advanced biofuels. He is adjunct faculty at the University of California, Berkeley and the University of Queensland.
http://www.jbei.org/people/leadership/blake-simmons
https://biosciences.lbl.gov/profiles/blake-simmons
4:06
Pioneer (feat. DeepSik & Fire Fild)
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Pioneer (feat. DeepSik & Fire Fild) · LBNL
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℗ 사운...
published: 15 Jul 2022
Pioneer (feat. DeepSik & Fire Fild)
Pioneer (feat. DeepSik & Fire Fild)
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Pioneer (feat. DeepSik & Fire Fild) · LBNL
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℗ 사운드리퍼블리카
Released on: 2022-07-15
Lyricist: LBNL
Lyricist: DeepSik
Lyricist: Fire Fild
Composer: LBNL
Arranger: LBNL
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Lawrence Berkeley National Laboratory
The Lawrence Berkeley National Laboratory (LBNL or LBL), commonly referred to as Berkeley Lab, is a United States national laboratory located in the Berkeley Hills near Berkeley, California that conducts scientific research on behalf of the United States Department of Energy (DOE). It is managed and operated by the University of California, The laboratory overlooks University of California, Berkeley's main campus.
History
The laboratory was founded in 1931 as the Radiation Laboratory of the University of California, associated with the Physics Department, on August 26 by Ernest Lawrence. It centered physics research around his new instrument, the cyclotron, a type of particle accelerator for which he won the Nobel Prize in Physics in 1939. Throughout the 1930s, Lawrence pushed to create larger and larger machines for physics research, courting private philanthropists for funding. After the laboratory was scooped on a number of fundamental discoveries that they felt they ought to have made, the "cyclotroneers" began to collaborate more closely with the department's theoretical physicists, led by Robert Oppenheimer. The lab moved to its site on the hill above campus in 1940 as its machines, specifically the 184-inch (4.67 m) cyclotron, became too large for the university grounds.
This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/Lawrence_Berkeley_National_Laboratory
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). Multi-State. Transportation. Electrification Impact. Study. Preparing the Grid for Light-,Medium-, and Heavy-Duty Electric Vehicles ... U.S ... LBNL ... The National Renewable Energy Laboratory (NREL), Lawrence Berkeley National Laboratory (LBNL), and Kevala Inc.
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The motions of satellites in galaxy groups tell us that such groupings, and therefore possibly the universe, are younger than what standard cosmology tells us ....
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By the end of 2022, US co-located renewable and energy storage projects totalled 41GW of generating power and 5.4GW/15.2GWh of energy storage, according to Lawrence Berkeley National Laboratory (LBNL) analysis ....
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