Job
Well-Paid Jobs in Protein Chemistry
Can you express and purify proteins? FPLC? We need you!
Want a PhD? Looking for a summer internship? Students and postdocs wanted!
欢迎访问学者客座教授
Visiting scholars and professors welcome!
david dot callaway at nyu dot edu
Contact us HERE
We use X-ray and neutron scattering
to probe protein structure and dynamics
in novel ways.
We do what no one else can.
Positions require expertise in protein biochemistry, molecular and cell biology, and physical chemistry.
Fast protein liquid chromatography (FPLC), isothermal titration calorimetry (ITC), microscale thermophoresis (MST), biolayer interferometry (BLI). protein NMR, restriction enzyme digest, molecular cloning, transformation, DNA sequencing, peptide design, DNA and RNA isolation, PCR, RT-PCR, Random Amplified cDNA Ends (RACE), Southern and northern analyses, SDS-PAGE, western analysis, isotopic and radioactive labeling, enzyme assays, ELISA and gel electrophoresis.
Dynamic light scattering, analytical ultracentrifugation, velocity sedimentation, surface plasmon resonance.
Extremely well-funded, international travel likely.
Enthusiastic and innovative scientists
who can work independently are
encouraged to apply.
★ 欢迎访问学者和客座教授 ★ 纽约市曼哈顿 ★
★ 生物化学 ★ 蛋白质化学 ★
★ 结构生物学 ★ 生物物理学 ★
Above-average compensation available for exceptional individuals
★ 在纽约市的高薪职位 ★
Are you an FPLC expert?
Visiting scholars and professors welcome!
Numerous well-paid positions are available, at ALL levels.
Can you express and purify proteins? FPLC? We need you!
Are you looking for a Senior Associate Scientist or Protein Engineering position?
david dot callaway at nyu dot edu
Contact us HERE!
Proteins MOVE!
A first look at nanosecond protein domain dynamics HERE!
Protein nanomachines are far more complex than any molecular machines that have yet been artificially constructed.
Their skillful utilization likely represents the future of medicine.
Contact us HERE
Neutron spin echo spectroscopy (NSE) is the only experimental technique that can determine protein motion on nano length scales and on nanosecond to microsecond time scales. NSE can reveal protein domain motions in a protein or within a protein complex on length-scales comparable to their overall dimension. Such motions have long been hypothesized to be the most significant modes for protein function. We have developed a theoretical framework that allows one to interpret the NSE data
Nanoscale protein dynamics:
A new frontier for neutron spin echo spectroscopy
[Biophys J. 2010;99(10):3473-82 and Proc Natl Acad Sci U S A. 2005;102(49):17646-51].
Our theoretical framework uses simple concepts from nonequilibrium statistical mechanics, and does not require elaborate molecular dynamics simulations, complex fits to rotational motion, or elastic network models. In combination with our experimental methodology of selective deuterium labeling, our work clears significant hurdles to the understanding of this very important problem.
SO DO IT!
APPLY NOW!
Contact us HERE
