There’s such a thing as “too much information”, especially for
We are rethoric question ran over her cheek When she reached the first hills of the Italic Mountains, she
Throw myself down teems with vapour around me, and the meridian sun strikes the upper surface of the
Few stray gleams steal into the inner sanctuary grow familiar with the countless indescribable forms,
Xuemei Chen got her B.S. degree from Peking University and Ph.D. degree from Cornell University. After postdoctoral training at California Institute of Technology, she started her assistant professor position in 1999 at the Waksman Institute at Rutgers University. She was promoted to associate professor in 2005 and won the Board of Trustees Research Fellowship for Scholarly Excellence at Rutgers University. She moved to University of California, Riverside in 2005 as an associate professor and was promoted to full professor in 2009 and distinguished professor in 2013. In 2006, she received the Charles Albert Shull award from American Society of Plant Biologists. She was elected an AAAS Fellow in 2011 and a member of the National Academy of Sciences in 2013. She studied chloroplast gene expression in Chlamydomonas during her Ph.D. training and floral patterning mechanisms during her postdoc research. Her lab has focused on the molecular mechanisms underlying the biogenesis, degradation, and modes of action of small RNAs in plants and has recently begun to study RNA modifications.
How you transform your business as technology, consumer, habits industry dynamic s change? Find out from those leading the charge.
World is committed to making participation in the event a harassment free experience for everyone, regardless of level of experience, gender, gender identity and expression
This session will address new and emerging AI tools for plant science, with a particular emphasis on agricultural applications such as plant breeding and production management. Robotic platforms now have the ability to get around autonomously in field environments, with modalities that include drones that can fly over crops, over-row tractors, and small under-row ground vehicles. These machines can carry sensing payloads capable of automatically collecting measurements at scale, such as imagery, hyperspectral measurements, and even measurements such as leaf clamps that require contact with the plant. When combined with genotype data and environmental data from in-situ sensor networks, the result is a massive heterogeneous data set that has the potential to provide new insights into problems such as plant physiology, crop improvement, and crop management. But processing that data set presents a number of AI challenges, ranging from extracting useful features from individual images to big-data analysis to understand GxExP relationships and provide actionable decision support. This is a large vision, with many facets. The talks in this session will explore some of the key aspects, including field robotics, AI for sensing, rapid phenotyping, AI-driven plant modeling, and AI informatics.
RNAs are versatile molecules that serve informational, structural, catalytic, regulatory, and signaling roles in cells. Mechanisms that generate, process, modify, utilize and degrade RNAs are central to nearly all biological processes. This session focuses on recent findings on novel functions of small regulatory RNAs and metabolic processes on long RNAs.
1Hd- 50, 010 Avenue, NY 90001
Name: Ronaldo König
Name: Ronaldo König