Category Archives: graduate studies

Amanda Tan – winner 2016 faculty mentor fellowship

Congratulations to physics graduate student Amanda Tan for winning a UC Merced “faculty mentor” fellowship.  This prestigious fellowship is awarded to prepare future faculty and provides a year’s funding plus a travel stipend.

Amanda’s research project focuses on active biological materials, in particular microtubules and molecular motors. She is collaborating with the Xu lab at UC Merced and will have her first paper with the group out soon.

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The award assists recipients in acquiring and developing advanced research skills under faculty mentorship and is aimed at increasing the number of students who complete their Ph.D. degree and successfully acquire a faculty appointment.

 

 

Congratulations Dr Lor!

Dr Chai Lor successfully defended his PhD thesis in the BEST (Bioengineering and small scale technologies) program on October 26th. Chai was a bioengineering undergraduate at UC Merced and a member of the first graduating class.

“Phase Behavior and Nanotube Formation in Lipid Membranes”

Biological cells are protected by a complex barrier called the lipid membrane. The lipid membrane is a soft material structure consisting of many lipid molecules held together by hydrophobic forces in an aqueous solution. Two simple experimental models were employed to investigate the role of specific lipid molecules in biological membranes. The first model investigated the phase behavior of the binary lipid mixture, 1-dipalmitoyl-2-docosahexaenoyl-sn-glycero-3-phosphoethanolamine (DHA-PE) and 1,2-dipalmitoyl-sn-glycero-3-phosphocholine (DPPC), using small-angle x-ray scattering (SAXS) and wide-angle x-ray scattering (WAXS). Our results shows that DHA-PE induces phase separation into a DHA rich liquid crystalline (Lα) phase and a DHA poor gel (Lβ’) phase at overall DHA-PE concentrations as low as 0.1mol%. In addition, we find that the structure of the Lβ’ phase, from which the DHA-PE molecules are largely excluded, is modified in the phase-separated state at low DHA-PE concentrations, with a decrease in bilayer thickness of 1.34nm for 0.1mol% at room temperature compared to pure DPPC bilayers. The second model investigated the formation of lipid nanotubes using an anchor system consisting of lipids, kinesin molecular motors, and microtubules in a flow cell. Lipid tubulation was conducted on two different membranes, 1,2-dioleoyl-sn-glycero-3-phosphocholine (DOPC) and DPPC. Lipid nanotubes were pulled from anchored giant unilamellar vesicles (GUVs) by drag force generated from the flow inside the channel. The results showed that DPPC membranes cannot generate lipid nanotubes while DOPC can, which was expected. We find that a drag force of approximately ≈7.9 pN is sufficient for tubule extraction and that it only requires 1-2 kinesin motor proteins for anchoring the GUV.

“Low concentrations of docosahexanoic acid significantly modify membrane structure and phase behavior”
C. Lor and L.S. Hirst, MEMBRANES, 5(4), 857-874 Link (2015)

 

Makiko Quint wins faculty mentor fellowship

Congratulations to graduate student Makiko Quint! Makiko was awarded the UC Merced faculty mentor fellowship for 2015/2016. Her research project, in collaboration with the Ghosh group at UC Merced focuses on liquid crystal nanoparticle composites.

Read her recent paper in optical express here

The award assists recipients in acquiring and developing advanced research skills under faculty mentorship and is aimed at increasing the number of students who complete their Ph.D. degree and successfully acquire a faculty appointment.

The fellowship provides one year’s funding for Makiko’s graduate work – congratulations!