[FRIAM] Fwd: TOMORROW in New York: Talk by the NOBEL PRIZE winner Richard J. Roberts
Nick Thompson
nickthompson at earthlink.net
Mon Dec 10 19:30:02 EST 2018
Ahhhh. That works!!!!
Nicholas S. Thompson
Emeritus Professor of Psychology and Biology
Clark University
<http://home.earthlink.net/~nickthompson/naturaldesigns/> http://home.earthlink.net/~nickthompson/naturaldesigns/
From: Friam [mailto:friam-bounces at redfish.com] On Behalf Of Frank Wimberly
Sent: Monday, December 10, 2018 4:17 PM
To: The Friday Morning Applied Complexity Coffee Group <friam at redfish.com>
Subject: Re: [FRIAM] Fwd: TOMORROW in New York: Talk by the NOBEL PRIZE winner Richard J. Roberts
Let's try it this way:
This is happening TOMORROW: please join us for the talk of a Nobel Prize winner Sir Richard J. Roberts at NYU Tandon!
<http://emm.engineering.nyu.edu/admin/temp/templates/57/electricalcompeng_header.png>
<http://emm.engineering.nyu.edu/admin/temp/newsletters/4165/ai-series-email-header.jpg>
ECE Seminar Series on Modern Artificial Intelligence:
The Path to the Nobel Prize
<http://emm.engineering.nyu.edu/admin/temp/newsletters/4165/richard-roberts.jpg>
_____
Time & Location:
Tuesday, Dec. 11, 2018
11:00am EST
370 Jay Street
Room 1201
Contact:
<mailto:ac5455 at nyu.edu> Anna Choromanska
Richard J. Roberts
Dr. Richard J. Roberts is the Chief Scientific Officer at New England Biolabs, Beverly, Massachusetts. He received a Ph.D. in Organic Chemistry in 1968 from Sheffield University and then moved as a postdoctoral fellow to Harvard.
>From 1972 to 1992, he worked at Cold Spring Harbor Laboratory, eventually becoming Assistant Director for Research under Dr. J.D. Watson. He began work on the newly discovered Type II restriction enzymes in 1972 and these enzymes have been a major research theme. Studies of transcription in Adenovirus-2 led to the discovery of split genes and mRNA splicing in 1977, for which he received the Nobel Prize in Medicine in 1993. During the sequencing of the Adenovirus-2 genome computational tools became essential and his laboratory pioneered the application of computers in this area. DNA methyltransferases, as components of restriction-modification systems are also of active interest and the first crystal structures for the HhaI methyltransferase led to the discovery of base flipping. Bioinformatic studies of microbial genomes to find new restriction systems are a major research focus as is the elucidation of DNA methyltransferase recognition sequences using SMRT sequencing and a new approach to m5C containing recognition sequences.
The Path to the Nobel Prize
I will briefly describe how I became interested in science and how I almost became a professional billiards player. Following my early interests in chemistry, and my pursuit of a Ph.D. in chemistry I became fascinated with biology and read a book, “The Thread of Life” by John Kendrew that led to my becoming a molecular biologist. I will describe the research that led to the discovery of RNA splicing, which turned out to be a temporary diversion from my real interests in DNA restriction and modification. With a keen interest in sequencing DNA I became heavily involved in using computers and was a pioneer in what is now called bioinformatics. In the RM field many discoveries have been made including, most recently, some exciting findings on bacterial methylomes.
My career has spanned traditional academic research to more commercially inspired ventures. Since I now work at New England Biolabs, a for-profit company, I will describe its origins, its philosophy towards business and life, and how commercial success can fund innovative research. One theme running through my career has been a lack of respect for dogma and a keen sense of questioning everything that people tell me they already know.
----------------------------------
Frank Wimberly
My memoir:
https://www.amazon.com/author/frankwimberly
My scientific publications:
https://www.researchgate.net/profile/Frank_Wimberly2
Phone (505) 670-9918
On Mon, Dec 10, 2018, 4:04 PM Nick Thompson <nickthompson at earthlink.net <mailto:nickthompson at earthlink.net> wrote:
Hmm. Outlook provides me with no such opportunity.
n
Nicholas S. Thompson
Emeritus Professor of Psychology and Biology
Clark University
<http://home.earthlink.net/~nickthompson/naturaldesigns/> http://home.earthlink.net/~nickthompson/naturaldesigns/
From: Frank Wimberly [mailto:wimberly3 at gmail.com <mailto:wimberly3 at gmail.com> ]
Sent: Monday, December 10, 2018 12:20 PM
To: Thompson, Nicholas <nickthompson at earthlink.net <mailto:nickthompson at earthlink.net> >
Subject: Re: [FRIAM] Fwd: TOMORROW in New York: Talk by the NOBEL PRIZE winner Richard J. Roberts
I have to click on "Show quoted text".
-----------------------------------
Frank Wimberly
My memoir:
https://www.amazon.com/author/frankwimberly
My scientific publications:
https://www.researchgate.net/profile/Frank_Wimberly2
Phone (505) 670-9918
On Mon, Dec 10, 2018, 11:39 AM Nick Thompson <nickthompson at earthlink.net <mailto:nickthompson at earthlink.net> wrote:
Frank,
Something about this message felt Spoofish.? For one thing, it appeared to have no content. Is you you?
n
Nicholas S. Thompson
Emeritus Professor of Psychology and Biology
Clark University
<http://home.earthlink.net/~nickthompson/naturaldesigns/> http://home.earthlink.net/~nickthompson/naturaldesigns/
From: Friam [mailto:friam-bounces at redfish.com <mailto:friam-bounces at redfish.com> ] On Behalf Of Frank Wimberly
Sent: Monday, December 10, 2018 11:11 AM
To: The Friday Morning Applied Complexity Coffee Group <friam at redfish.com <mailto:friam at redfish.com> >
Subject: [FRIAM] Fwd: TOMORROW in New York: Talk by the NOBEL PRIZE winner Richard J. Roberts
-----------------------------------
Frank Wimberly
My memoir:
https://www.amazon.com/author/frankwimberly
My scientific publications:
https://www.researchgate.net/profile/Frank_Wimberly2
Phone (505) 670-9918
---------- Forwarded message ---------
From: Sharon Cavlovich <sharonw at andrew.cmu.edu <mailto:sharonw at andrew.cmu.edu> >
Date: Mon, Dec 10, 2018, 7:26 AM
Subject: Fwd: TOMORROW in New York: Talk by the NOBEL PRIZE winner Richard J. Roberts
To: <ml-seminar at cs.cmu.edu <mailto:ml-seminar at cs.cmu.edu> >
This may be of interest to some of you and you can attend remotely!
This is happening TOMORROW: please join us for the talk of a Nobel Prize winner Sir Richard J. Roberts at NYU Tandon!
<http://emm.engineering.nyu.edu/admin/temp/templates/57/electricalcompeng_header.png>
<http://emm.engineering.nyu.edu/admin/temp/newsletters/4165/ai-series-email-header.jpg>
ECE Seminar Series on Modern Artificial Intelligence:
The Path to the Nobel Prize
<http://emm.engineering.nyu.edu/admin/temp/newsletters/4165/richard-roberts.jpg>
_____
Time & Location:
Tuesday, Dec. 11, 2018
11:00am EST
370 Jay Street
Room 1201
Contact:
Anna Choromanska <mailto:ac5455 at nyu.edu>
Richard J. Roberts
Dr. Richard J. Roberts is the Chief Scientific Officer at New England Biolabs, Beverly, Massachusetts. He received a Ph.D. in Organic Chemistry in 1968 from Sheffield University and then moved as a postdoctoral fellow to Harvard.
>From 1972 to 1992, he worked at Cold Spring Harbor Laboratory, eventually becoming Assistant Director for Research under Dr. J.D. Watson. He began work on the newly discovered Type II restriction enzymes in 1972 and these enzymes have been a major research theme. Studies of transcription in Adenovirus-2 led to the discovery of split genes and mRNA splicing in 1977, for which he received the Nobel Prize in Medicine in 1993. During the sequencing of the Adenovirus-2 genome computational tools became essential and his laboratory pioneered the application of computers in this area. DNA methyltransferases, as components of restriction-modification systems are also of active interest and the first crystal structures for the HhaI methyltransferase led to the discovery of base flipping. Bioinformatic studies of microbial genomes to find new restriction systems are a major research focus as is the elucidation of DNA methyltransferase recognition sequences using SMRT sequencing and a new approach to m5C containing recognition sequences.
The Path to the Nobel Prize
I will briefly describe how I became interested in science and how I almost became a professional billiards player. Following my early interests in chemistry, and my pursuit of a Ph.D. in chemistry I became fascinated with biology and read a book, “The Thread of Life” by John Kendrew that led to my becoming a molecular biologist. I will describe the research that led to the discovery of RNA splicing, which turned out to be a temporary diversion from my real interests in DNA restriction and modification. With a keen interest in sequencing DNA I became heavily involved in using computers and was a pioneer in what is now called bioinformatics. In the RM field many discoveries have been made including, most recently, some exciting findings on bacterial methylomes.
My career has spanned traditional academic research to more commercially inspired ventures. Since I now work at New England Biolabs, a for-profit company, I will describe its origins, its philosophy towards business and life, and how commercial success can fund innovative research. One theme running through my career has been a lack of respect for dogma and a keen sense of questioning everything that people tell me they already know.
_____
This event is Free and open to the public. Sign up to attend. <http://emm.engineering.nyu.edu/link.php?M=1549351&N=4771&L=15596&F=H> <http://emm.engineering.nyu.edu/link.php?M=1549351&N=4771&L=13120&F=H>
Tune in via live-stream at: <http://emm.engineering.nyu.edu/link.php?M=1549351&N=4771&L=14974&F=H> engineering.nyu.edu/modern-ai
The Seminar Series in Modern Artificial Intelligence begins a new tradition at New York University. The series will be held at NYU Tandon School of Engineering and is hosted by the Department of Electrical and Computer Engineering. Organized by Professor Anna Choromanska, the series aims to bring together faculty and students to discuss the most important research trends in the world of AI. The speakers include world-renowned experts whose research is making an immense impact on the development of new machine learning techniques and technologies and helping to build a better, smarter, more-connected world.
_____
If you are not a member of the NYU Tandon community and wish to be removed from this mailing list, please email engineering.webteam at nyu.edu <mailto:engineering.webteam at nyu.edu> .
--
Anna Choromanska
Assistant Professor
Department of Electrical and Computer Engineering
NYU Tandon School of Engineering
New York University
Room LC266D
5 Metrotech Center
New York, NY 11201, USA
Office phone: 646.997.0269
ac5455 at nyu dot edu
achoroma at gmail dot com
http://engineering.nyu.edu/people/anna-choromanska
<http://www.columbia.edu/~aec2163/> http://cims.nyu.edu/~achoroma
-------------- next part --------------
An HTML attachment was scrubbed...
URL: <http://redfish.com/pipermail/friam_redfish.com/attachments/20181210/295df797/attachment.html>
More information about the Friam
mailing list