C
Carlos Bustamante
Researcher at Stanford University
Publications - 799
Citations - 122303
Carlos Bustamante is an academic researcher from Stanford University. The author has contributed to research in topics: Population & DNA. The author has an hindex of 161, co-authored 770 publications receiving 106053 citations. Previous affiliations of Carlos Bustamante include Lawrence Berkeley National Laboratory & University of California.
Papers
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Journal ArticleDOI
Expressions for the interpretation of circular intensity differential scattering of chiral aggregates.
TL;DR: The derivation of compact expressions of the circular intensity differential scattering (CIDS) of chiral molecules is presented in the first Born approximation of the fields and the expressions obtained confirm the main features of the experimental CIDS patterns.
Book ChapterDOI
Mechanical manipulation of single titin molecules with laser tweezers.
TL;DR: Folding kinetics as the source of non-equilibrium is directly demonstrated here by the abolishment of force hysteresis in the presence of chemical denaturant.
Journal ArticleDOI
Genetic variation drives seasonal onset of hibernation in the 13-lined ground squirrel.
Katharine R. Grabek,Thomas F. Cooke,Thomas F. Cooke,L. Elaine Epperson,Kaitlyn Spees,Gleyce F. Cabral,Gleyce F. Cabral,Shirley Sutton,Dana K. Merriman,Sandra L. Martin,Carlos Bustamante +10 more
TL;DR: The power of applying genetic mapping to hibernation is highlighted and new insight is presented into genetics driving its onset, as well as high heritability for hibernation onset.
Journal ArticleDOI
Reply to Ge and Sang: A single origin of domesticated rice
Jeanmaire Molina,Martin Sikora,Nandita R. Garud,Jonathan M. Flowers,Samara Rubinstein,Andy Reynolds,Pu Huang,Scott A. Jackson,Barbara A. Schaal,Carlos Bustamante,Adam R. Boyko,Michael D. Purugganan +11 more
TL;DR: Ge and Sang suggest that the analyses of domesticated Asian rice had a single origin were flawed and that the origin of rice remains an open question.
Journal ArticleDOI
High-resolution dual-trap optical tweezers with differential detection: alignment of instrument components.
TL;DR: This design, a dual-trap optical tweezers with differential detection, can detect length changes to a DNA molecule tethering the trapped beads of 1 bp by forming two traps from the same laser and maximizing the common optical paths of the two trapping beams.