<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.0 Transitional//EN">
<HTML><HEAD>
<META http-equiv=Content-Type content="text/html; charset=iso-8859-1">
<META content="MSHTML 6.00.2800.1400" name=GENERATOR></HEAD>
<BODY style="MARGIN-TOP: 2px; FONT: 8pt Tahoma; MARGIN-LEFT: 2px">
<DIV><FONT size=2>van Holde's Physical Biochemistry has a nice sedimentation
intro (see chapter 5 & 14 in the newest edition) I use for my course - I
also make them read papers (mine of course) - for all newest methods of analysis
(sedfit, sedphat, sedanal, nonlin, van Holde-Weischet, etc) you may have to look
at reviews or for a state of the art overview the festschrift in Biophys Chem
(vol 108, March 1, 2004) for Dave Yphantis!</FONT></DIV>
<DIV><FONT size=2></FONT> </DIV>
<DIV><FONT size=2></FONT> </DIV>
<DIV><FONT size=2></FONT> </DIV>
<DIV> </DIV>
<DIV> </DIV>
<DIV>-------------------------------------------------------------------<BR> Dr.
John J. "Jack" Correia<BR> Department of Biochemistry<BR> University
of Mississippi Medical Center<BR> 2500 North State Street<BR> Jackson,
MS 39216<BR> (601)
984-1522
<BR> fax (601)
984-1501
<BR> email address: <A
href="mailto:jcorreia@biochem.umsmed.edu">jcorreia@biochem.umsmed.edu</A>
<BR> homepage location: <A
href="http://biochemistry.umc.edu/correia.html">http://biochemistry.umc.edu/correia.html</A><BR> dept
homepage location: <A
href="http://biochemistry.umc.edu/">http://biochemistry.umc.edu/</A><BR>-------------------------------------------------------------------<BR> <BR> <BR><BR><BR>>>>
Jeff Cohlberg <cohlberg@csulb.edu> 07/09/04 12:56PM
>>><BR>----------------------------------------------------------------------------------<BR>The
older archived RASMB emails can be found at:<BR><A
href="http://rasmb-email.bbri.org/rasmb_archives">http://rasmb-email.bbri.org/rasmb_archives</A><BR>and
current archives at<BR><A
href="http://rasmb-email.bbri.org/pipermail/rasmb/">http://rasmb-email.bbri.org/pipermail/rasmb/</A><BR>Search
All the Archives at:<BR><A
href="http://rasmb-email.bbri.org/rasmb_search.html">http://rasmb-email.bbri.org/rasmb_search.html</A><BR>----------------------------------------------------------------------------------<BR><BR><BR>I
am about to teach a graduate level course in physical biochemistry for <BR>the
first time in a few years, and I would like to find some appropriate <BR>reading
material for the students on sedimentation which reflects modern
<BR>experimental and especially data analysis practice. It just doesn't
<BR>seem appropriate to just go through ln r vs. t and ln c vs. r-squared
<BR>one more time. I'd especially like to know about material which
<BR>presents modern methods of analyzing sedimentation velocity data in a
<BR>form suitable for student reading. I'm not concerned about presenting
a <BR>completely rigorous mathematical approach complete with derivations,
<BR>just the necessary information so that a student encountering one of the
<BR>newer types of graphical analysis in a research paper would be able to
<BR>understand the meaning and significance of the data being presented. I
<BR>am a Model E user but have no experience with the XL.<BR><BR>Does anyone
have any suggestions?<BR><BR>Jeff Cohlberg<BR><BR>-- <BR>Jeffrey A. Cohlberg,
Professor<BR>Department of Chemistry and Biochemistry<BR>California State
University, Long Beach<BR>1250 Bellflower Blvd.<BR>Long Beach, CA 90840<BR>phone
(562) 985-4944 fax (775)
248-1263<BR><BR><BR><BR><BR>_______________________________________________<BR>RASMB
mailing list<BR>RASMB@rasmb-email.bbri.org<BR><A
href="http://rasmb-email.bbri.org/mailman/listinfo/rasmb">http://rasmb-email.bbri.org/mailman/listinfo/rasmb</A><BR></DIV></BODY></HTML>