NAMOT Pre-Release 2.2.0-pre4 In OSX 10.8 (Maybe Older Versions)

A recent visit to the College of Nanoscale Science and Engineering (CNSE) at SUNY Albany inspired a few new DNA ideas that I decided would be greatly simplified by having NAMOT available again for design. Having failed at the base install of the NAMOT 2 version and, unfortunately, not having NAMOT available in Fink for a simple installation, the solution became to build the pre-release from scratch. Ignoring the many errors one encounters while walking through an OSX/Xcode/Fink/X11 bootstrap, the final procedure worked well and without major problem. As usual, the error messages at varied steps are provided below because, I assume, those messages are what you’re searching for when you find your way here.

0. Required Installations

You’ll need the following installed for this particular build. I believe XCode is the only thing that you’ll have to pay for (if you don’t already have it. I seem to remember paying $5 through the App Store).

1. XCode

The OSX Developer Suite – developer.apple.com/xcode

2. XQuartz

An OSX (X.Org) X Window System – xquartz.macosforge.org/landing/

3. Fink

An OSX port program for a host of Unix codes and libraries – www.finkproject.org

3a. GSL

The GNU Scientific (C and C++) Libraries – www.gnu.org/software/gsl. This will be installed with Fink.

3b. LessTif

An OSF/Motif clone (made available for OSX through Fink) – lesstif.sourceforge.net. This will be installed with Fink.

4. NAMOT2.2.0-pre4

The -pre4 is currently available (from 2003) from sourceforge.net/projects/namot/files/. I did not try -pre3 and had no luck with the official 2 release.

And, with that…

1. XCode

Blindly follow the install procedure. Several steps below deal with working around the default install locations (specifically, /sw).

2. XQuartz

If you don’t have XQuartz installed, you’re configure step…

cd Downloads
cd namot-2.2.0-pre4
./configure 

will produce the following error…

checking for a BSD-compatible install... /usr/bin/install -c
checking whether build environment is sane... yes
checking for gawk... no
checking for mawk... no
checking for nawk... no
checking for awk... awk
...
creating libtool
checking for X... no
checking for main in -lX11... no
NAMOT requires Xwindows

Blindly follow the XQuartz install process. After the installations, you’ll receive the same error as above. The –x-libraries= and –x-includes= additions to configure below direct the script to the proper libraries and includes.

./configure --x-libraries=/usr/X11/lib/ --x-includes=/usrX11/include/

Hopefully, you’ll find yourself past the first install problem and onto the second problem.

checking for a BSD-compatible install... /usr/bin/install -c
checking whether build environment is sane... yes
checking for gawk... no
checking for mawk... no
checking for nawk... no
checking for awk... awk
...
creating libtool
checking for X... libraries /usr/X11/lib/, headers /usrX11/include/
checking for gethostbyname... yes
checking for connect... yes
checking for remove... yes
checking for shmat... yes
checking for IceConnectionNumber in -lICE... yes
checking for main in -lX11... yes
checking for main in -lgslcblas... no
NAMOT requires GNU Scientific Library

3. Fink

The next two codes that need to be installed are the GNU Scientific Libraries and LessTif, both of which are much easier to install using Fink. It is generally useful for many other codes as well, so a good program for any computational chemist to have on hand. The install should be non-problematic despite having to build it from source in 10.6 – 10.8 (as of January 2013). If you build with all the default settings, you’ll have no trouble after.

cd Downloads
cd fink-0.34.4
./bootstrap 

I chose the default settings throughout.

Fink must be installed and run with superuser (root) privileges. Fink can automatically try to become root when it's run from a user account. Since you're currently running this script as a normal user, the method you choose will also be used immediately for this script. Available methods:

(1)	Use sudo
(2)	Use su
(3)	None, fink must be run as root

Choose a method: [1] 

...

You should now have a working Fink installation in '/sw'. You still need package descriptions if you want to compile packages yourself. You can get them by running either of the commands: 'fink selfupdate-rsync', to update via rsync (generally preferred); or 'fink selfupdate-cvs', to update via CVS (more likely to work through a firewall).

Run '. /sw/bin/init.sh' to set up this terminal session environment to use Fink. To make the software installed by Fink available in all of your future terminal shells, add '. /sw/bin/init.sh' to the init script '.profile' or '.bash_profile' in your home directory. The program /sw/bin/pathsetup.sh can help with this. Enjoy.

Then you run the final step in Fink below:

/sw/bin/pathsetup.sh

Which will produce the following two pop-ups notifying you of shell modifications.

3a. GSL

With the install of Fink, you need to install GSL and LessTif. If you try to install either immediately after installation…

fink install gsl

…you’ll receive the following error:

Password:
Scanning package description files..........
Information about 305 packages read in 0 seconds.
no package found for "gsl"
Failed: no package found for specification 'gsl'!

Required after the installation is a fink selfupdate.

fink selfupdate

As usual, follow the default settings…

fink needs you to choose a SelfUpdateMethod.

(1)	cvs
(2)	Stick to point releases
(3)	rsync

Choose an update method [3] 
/usr/bin/find /sw/fink -name CVS -type d -print0 | xargs -0 /bin/rm -rf
fink is setting your default update method to rsync
...
Updating the list of locally available binary packages.
Scanning dists/stable/main/binary-darwin-i386
New package: dists/stable/main/binary-darwin-i386/base/base-files_1.9.13-1_darwin-i386.deb
New package: dists/stable/main/binary-darwin-i386/base/fink-mirrors_0.34.4.1-1_darwin-i386.deb

Which then leads to a successful GSL install.

fink install gsl

Producing the following output…

Information about 12051 packages read in 1 seconds.
The package 'gsl' will be built and installed.
Reading build dependency for gsl-1.15-1...
Reading dependency for gsl-1.15-1...
Reading runtime dependency for gsl-1.15-1...
Reading dependency for gsl-shlibs-1.15-1...
...
Updating the list of locally available binary packages.
Scanning dists/stable/main/binary-darwin-i386
New package: dists/stable/main/binary-darwin-i386/sci/gsl-shlibs_1.15-1_darwin-i386.deb
New package: dists/stable/main/binary-darwin-i386/sci/gsl_1.15-1_darwin-i386.deb

Attempting a fresh build after the GSL step…

./configure --x-libraries=/usr/X11/lib/ --x-includes=/usrX11/include/

…then still produces the following error:

checking for a BSD-compatible install... /usr/bin/install -c
checking whether build environment is sane... yes
checking for gawk... no
checking for mawk... no
checking for nawk... no
checking for awk... awk
...
checking for IceConnectionNumber in -lICE... yes
checking for main in -lX11... yes
checking for main in -lgslcblas... no
NAMOT requires GNU Scientific Library

As mentioned above, there are a few redirects that need to be made after the XCode / Fink install to put libraries and includes where, in this case, NAMOT expects them. To perform this task, we’ll be using symbolic links.

sudo ln -s /sw/include/gsl /usr/include/
sudo ln -s /sw/lib/libgsl* /usr/lib

Now attempting a build…

./configure --x-libraries=/usr/X11/lib/ --x-includes=/usrX11/include

Gets you past the GSL issue.

checking for a BSD-compatible install... /usr/bin/install -c
checking whether build environment is sane... yes
checking for gawk... no
checking for mawk... no
checking for nawk... no
checking for awk... awk
...
checking for IceConnectionNumber in -lICE... yes
checking for main in -lX11... yes
checking for main in -lgslcblas... yes
checking for main in -lgsl... yes
checking for XShmCreateImage in -lXext... yes
checking for main in -lXt... yes
checking for main in -lXm... no
NAMOT requires Motif...try LessTif(http://www.lesstif.org)

3b. LessTif

The LessTif symbolic links work the same as the GSL symbolic links. This fink install may take a while.

fink install lesstif

Output below…

Information about 12051 packages read in 1 seconds.
The package 'lesstif' will be built and installed.
Reading build dependency for lesstif-0.95.2-4...
Reading dependency for lesstif-0.95.2-4...
Reading runtime dependency for lesstif-0.95.2-4...
...
Setting up lesstif (0.95.2-4) ...
Clearing dependency_libs of .la files being installed

Updating the list of locally available binary packages.
Scanning dists/stable/main/binary-darwin-i386
New package: dists/stable/main/binary-darwin-i386/x11/app-defaults_20010814-12_darwin-i386.deb
New package: dists/stable/main/binary-darwin-i386/x11/lesstif-bin_0.95.2-4_darwin-i386.deb
New package: dists/stable/main/binary-darwin-i386/x11/lesstif-shlibs_0.95.2-4_darwin-i386.deb
New package: dists/stable/main/binary-darwin-i386/x11/lesstif_0.95.2-4_darwin-i386.deb
./configure --x-libraries=/usr/X11/lib/ --x-includes=/usrX11/include/

But, unfortunately, the LessTif libraries are not in the expected locations.

checking for a BSD-compatible install... /usr/bin/install -c
checking whether build environment is sane... yes
checking for gawk... no
checking for mawk... no
checking for nawk... no
checking for awk... awk
...
checking for IceConnectionNumber in -lICE... yes
checking for main in -lX11... yes
checking for main in -lgslcblas... yes
checking for main in -lgsl... yes
checking for XShmCreateImage in -lXext... yes
checking for main in -lXt... yes
checking for main in -lXm... no
NAMOT requires Motif...try LessTif(http://www.lesstif.org)

So we add the symbolic links…

sudo ln -s /sw/lib/libXm.* /usr/lib
sudo ln -s /sw/include/Xm /usr/include

Which, finally, runs configure…

./configure --x-libraries=/usr/X11/lib/ --x-includes=/usrX11/include/

…with no errors.

checking for a BSD-compatible install... /usr/bin/install -c
checking whether build environment is sane... yes
checking for gawk... no
checking for mawk... no
checking for nawk... no
checking for awk... awk
...
config.status: creating docs/demos/curve/Makefile
config.status: creating docs/demos/dit/Makefile
config.status: creating docs/demos/Makefile
config.status: creating config.h
config.status: executing depfiles commands

NOTE: The make step with Python 2.6 produces the following error below. I did not diagnose this beyond the failure to build under 10.6. OSX 10.8 comes with Python 2.7, which did not produce this problem (I’m assuming this is the origin of the problem).

make

…will produce the following error at the pngwriter.c step.

/bin/sh ../libtool --mode=compile gcc -DHAVE_CONFIG_H -I. -I. -I..    -DLIB_HOME="\"/usr/local/share/namot\"" -DHELP_FILE_DIR="\"/usr/local/share/namot\"" -I/System/Library/Frameworks/Python.framework/Versions/2.6/include/python2.6 -I/System/Library/Frameworks/Python.framework/Versions/2.6/lib/python2.6/config -g -O2 -c -o _pynamot_la-pngwriter.lo `test -f 'pngwriter.c' || echo './'`pngwriter.c
gcc -DHAVE_CONFIG_H -I. -I. -I.. -DLIB_HOME=\"/usr/local/share/namot\" -DHELP_FILE_DIR=\"/usr/local/share/namot\" -I/System/Library/Frameworks/Python.framework/Versions/2.6/include/python2.6 -I/System/Library/Frameworks/Python.framework/Versions/2.6/lib/python2.6/config -g -O2 -c pngwriter.c -MT _pynamot_la-pngwriter.lo -MD -MP -MF .deps/_pynamot_la-pngwriter.TPlo  -fno-common -DPIC -o _pynamot_la-pngwriter.lo
pngwriter.c: In function 'dump_PNG':
pngwriter.c:28: error: 'png_structp' undeclared (first use in this function)
pngwriter.c:28: error: (Each undeclared identifier is reported only once
pngwriter.c:28: error: for each function it appears in.)
pngwriter.c:28: error: expected ';' before 'png_ptr'
pngwriter.c:29: error: 'png_infop' undeclared (first use in this function)
pngwriter.c:29: error: expected ';' before 'info_ptr'
pngwriter.c:30: error: 'png_byte' undeclared (first use in this function)
pngwriter.c:30: error: 'row_pointers' undeclared (first use in this function)
pngwriter.c:30: error: expected expression before ')' token
pngwriter.c:31: error: 'png_text' undeclared (first use in this function)
pngwriter.c:31: error: expected ';' before 'text_ptr'
pngwriter.c:39: warning: incompatible implicit declaration of built-in function 'memset'
pngwriter.c:39: error: 'text_ptr' undeclared (first use in this function)
pngwriter.c:47: error: 'png_ptr' undeclared (first use in this function)
pngwriter.c:47: error: 'PNG_LIBPNG_VER_STRING' undeclared (first use in this function)
pngwriter.c:48: error: 'png_voidp' undeclared (first use in this function)
pngwriter.c:57: error: 'info_ptr' undeclared (first use in this function)
pngwriter.c:60: error: 'png_infopp' undeclared (first use in this function)
pngwriter.c:82: error: 'PNG_COLOR_TYPE_RGB' undeclared (first use in this function)
pngwriter.c:82: error: 'PNG_INTERLACE_ADAM7' undeclared (first use in this function)
pngwriter.c:83: error: 'PNG_COMPRESSION_TYPE_DEFAULT' undeclared (first use in this function)
pngwriter.c:83: error: 'PNG_FILTER_TYPE_DEFAULT' undeclared (first use in this function)
pngwriter.c:85: error: 'PNG_sRGB_INTENT_ABSOLUTE' undeclared (first use in this function)
pngwriter.c:90: error: 'PNG_TEXT_COMPRESSION_NONE' undeclared (first use in this function)
pngwriter.c:93: error: 'PNG_TEXT_COMPRESSION_zTXt' undeclared (first use in this function)
pngwriter.c:104: error: expected expression before ')' token
make[2]: *** [_pynamot_la-pngwriter.lo] Error 1
make[1]: *** [all-recursive] Error 1
make: *** [all] Error 2

The build on 10.8 continues as below, with a few warnings about the symbolic link usage that do not seem to affect the program usability (or continued build).

make

Results below…

make  all-recursive
Making all in src
source='namot_wrap.c' object='_pynamot_la-namot_wrap.lo' libtool=yes \
	depfile='.deps/_pynamot_la-namot_wrap.Plo' tmpdepfile='.deps/_pynamot_la-namot_wrap.TPlo' \
	depmode=gcc3 /bin/sh ../depcomp \
	/bin/sh ../libtool --mode=compile gcc -DHAVE_CONFIG_H -I. -I. -I..    -DLIB_HOME="\"/usr/local/share/namot\"" -DHELP_FILE_DIR="\"/usr/local/share/namot\"" -I/System/Library/Frameworks/Python.framework/Versions/2.7/include/python2.7 -I/System/Library/Frameworks/Python.framework/Versions/2.7/lib/python2.7/config -g -O2 -c -o _pynamot_la-namot_wrap.lo `test -f 'namot_wrap.c' || echo './'`namot_wrap.c

...

*** Warning: linker path does not have real file for library -lXm.
*** I have the capability to make that library automatically link in when
*** you link to this library.  But I can only do this if you have a
*** shared version of the library, which you do not appear to have
*** because I did check the linker path looking for a file starting
*** with libXm and none of the candidates passed a file format test
*** using a file magic. Last file checked: /sw/lib/libXm.la

*** Warning: linker path does not have real file for library -lgsl.
*** I have the capability to make that library automatically link in when
*** you link to this library.  But I can only do this if you have a
*** shared version of the library, which you do not appear to have
*** because I did check the linker path looking for a file starting
*** with libgsl and none of the candidates passed a file format test
*** using a file magic. Last file checked: /sw/lib/libgsl.la

*** Warning: linker path does not have real file for library -lgslcblas.
*** I have the capability to make that library automatically link in when
*** you link to this library.  But I can only do this if you have a
*** shared version of the library, which you do not appear to have
*** because I did check the linker path looking for a file starting
*** with libgslcblas and none of the candidates passed a file format test
*** using a file magic. Last file checked: /sw/lib/libgslcblas.la

*** Warning: libtool could not satisfy all declared inter-library
*** dependencies of module _pynamot.  Therefore, libtool will create
*** a static module, that should work as long as the dlopening
*** application is linked with the -dlopen flag.

...

Making all in libs
make[2]: Nothing to be done for `all'.
Making all in docs
Making all in helpfiles
make[3]: Nothing to be done for `all'.
Making all in demos
Making all in 6way
make[4]: Nothing to be done for `all'.
Making all in bending
make[4]: Nothing to be done for `all'.
Making all in cube
make[4]: Nothing to be done for `all'.
Making all in curve
make[4]: Nothing to be done for `all'.
Making all in dit
make[4]: Nothing to be done for `all'.
make[4]: Nothing to be done for `all-am'.
make[3]: Nothing to be done for `all-am'.
Making all in etc
make[2]: Nothing to be done for `all'.

Finally, the install…

make install

Which produces the following:

Making install in src
/bin/sh ../mkinstalldirs /usr/local/lib
 /bin/sh ../libtool --mode=install /usr/bin/install -c  _pynamot.la /usr/local/lib/_pynamot.la
/usr/bin/install -c .libs/_pynamot.lai /usr/local/lib/_pynamot.la
/usr/bin/install -c .libs/_pynamot.a /usr/local/lib/_pynamot.a
ranlib /usr/local/lib/_pynamot.a
chmod 644 /usr/local/lib/_pynamot.a
----------------------------------------------------------------------
Libraries have been installed in:
   /usr/local/lib

If you ever happen to want to link against installed libraries
in a given directory, LIBDIR, you must either use libtool, and
specify the full pathname of the library, or use the `-LLIBDIR'
flag during linking and do at least one of the following:
   - add LIBDIR to the `DYLD_LIBRARY_PATH' environment variable
     during execution

See any operating system documentation about shared libraries for
more information, such as the ld(1) and ld.so(8) manual pages.
...
/bin/sh ../mkinstalldirs /usr/local/share/namot
 /usr/bin/install -c -m 644 Namot2.512 /usr/local/share/namot/Namot2.512
 /usr/bin/install -c -m 644 Namot2.600 /usr/local/share/namot/Namot2.600
 /usr/bin/install -c -m 644 Namot2.700 /usr/local/share/namot/Namot2.700
 /usr/bin/install -c -m 644 icon1.xv /usr/local/share/namot/icon1.xv
make[2]: Nothing to be done for `install-exec-am'.
make[2]: Nothing to be done for `install-data-am'.

With luck, your launching of NAMOT will open XQuartz and produce a fully operational NAMOT session.

namot

And, for more assistance with producing DNA files for GROMACS, consider the Modifications To The ffG53a6.rtp And ffG53a5.rtp Residue Topology Files Required For Using GROMOS96-NAMOT-GROMACS v1, sed-Based Script For Converting NAMOT And NAMOT2 DNA Output To GROMOS96 Format For GROMACS Topology Generation v1, and sed-Based Script For Converting NAMOT And NAMOT2 DNA Output To ffAMBER Format For GROMACS Topology Generation v1 pages on this blog.

A Most Unlikely Obvious Molecule: DNA And Its Consequences – Slides From The CNY Skeptics Talk

I’ve been fortunate twice this year to have the Central New York (CNY) Skeptics force me to commit to a presentation topics I thought were worth presenting. As a complement to the audio that will appear at some point on the CNY Skeptics site, I’ve posted the non-animated slides as a PDF below. And the press photo’s from a way-back Excelsior Cornet Band gig where I had too long a wait between playing and marching.


Download: DGAllis_CNY_Skeptics_DNA_Lecture_7_Nov_2012.pdf, 8.3 MB

CNY Skeptics Presents Damian Allis, Ph.D., on “A Most Unlikely Obvious Molecule: DNA And Its Consequences”

Wednesday, November 7, 2012, 7:00 pm
DeWitt Community Library at Shoppingtown Mall
Buckland Community Room

DNA is Nature’s medium of digital information storage and access from which cellular machinery produces life itself. The 60 years of advances in our understanding of DNA have run in parallel with advances in computer technology and information science, and we are now entering an age of whole-genome maps, customized diagnoses, medicines, and dosages from genetic testing, and genetic modification that may eradicate some disorders completely. From super crops to super humans, the genetic information age offers humanity many different possible outcomes. This lecture will cover some of the history, machinery, possibilities, and consequences of DNA life.

Dr. Damian Allis is a research professor in the Department of Chemistry at Syracuse University, research fellow with the Forensic and National Security Sciences Institute, and bioinformaticist for Aptamatrix, Inc. He contains approximately 20 billion miles of DNA.

bfast-0.6.5a, MUMmer-3.22, and Amos-3.0.0 Installs In Ubuntu 10.04 LTS (And Related)

Taking care of a DNA/RNA fragment alignment installation triple-threat with this post. These Ubuntu installs for largely problem-free, but one little trick is needed for Amos (this because of my use of “/opt” for my usual installation and compilation attempts and, more so, my not being interested in modifying the root PATH statement despite the constant use of sudo when building in “/opt”).

So, with the downloads of

bfast-0.6.5a (currently: sourceforge.net/apps/mediawiki/bfast/index.php?title=Main_Page)
MUMmer-3.22 (currently: mummer.sourceforge.net)
Amos-3.0.0 (currently: sourceforge.net/apps/mediawiki/amos/index.php?title=AMOS)

taken care of, the following process is performed.

user@machine:~sudo aptitude update
user@machine:~sudo aptitude upgrade

[POSSIBLE RESTART REQUIRED after this. You don’t need-need to update/upgrade, but I do it before all builds regardless.]

user@machine:~sudo apt-get install bison build-essential cmake csh doxygen flex fort77 freeglut3-dev g++ g++-multilib gcc gcc-multilib gettext gfortran gnuplot ia32-libs lib32asound2 lib32gcc1 lib32gcc1-dbg lib32gfortran3 lib32gomp1 lib32mudflap0 lib32ncurses5 lib32nss-mdns lib32z1 libavdevice52 libbz2-dev libc6-dev-i386 libc6-i386 libfreeimage-dev libglew1.5-dev libnetcdf-dev libopenal1 libopenexr-dev libopenmpi-dev libpng12-dev libqt4-dev libssl-dev libstdc++6-4.3-dbg libstdc++6-4.3-dev libstdc++6-4.3-doc libxext-dev libxi-dev libxml-simple-perl libxmu-dev libxt-dev mercurial nfs-common nfs-kernel-server openmpi-bin patch portmap python2.6-dev rpm ssh tcsh xorg-dev zlib1g-dev

The large apt-get above is my “default” additional install for a variety of programs, including Amber, Abinit, GAMESS, GROMAC, etc. Many of these may not be needed but hard drives are cheap and figuring out the minimum list is more work than simply installing everything. Do check the list, however, to make sure something won’t confuse any other installs on your machine (if you’re new to this, likely not. If you’ve done builds a few times, you may already know the difference).

user@machine:~$ sudo mv bfast-0.6.5a.tar.gz /opt
user@machine:~$ sudo mv MUMmer3.22.tar.gz /opt
user@machine:~$ sudo mv amos-3.0.0.tar.gz /opt
user@machine:~$ cd /opt

Move the three programs to /opt (or not). Specifically for bfast, two additional apt-get’s are required.

user@machine:/opt$ sudo apt-get install libstatistics-descriptive-perl libdbd-pg-perl

The build for bfast is straightforward.

user@machine:/opt$ sudo tar xvfz bfast-0.6.5a.tar.gz 
user@machine:/opt$ cd bfast-0.6.5a/
user@machine:/opt/bfast-0.6.5a$ sudo ./configure 
user@machine:/opt/bfast-0.6.5a$ sudo make
user@machine:/opt/bfast-0.6.5a$ sudo make install
user@machine:/opt/bfast-0.6.5a$ cd ..

bfast is officially built and you’ve returned to your “/opt” directory. MUMmer is also straightforward.

user@machine:/opt$ sudo tar xvfz MUMmer3.22.tar.gz 
user@machine:/opt$ cd MUMmer3.22/
user@machine:/opt/MUMmer3.22$ sudo make check
user@machine:/opt/MUMmer3.22$ sudo make install

MUMmer is officially built. If you intend to build Amos, you will need some of what you built in MUMmer. Specifically, nucmer, delta-filter, and show-coords are used by Amos and must be present in your PATH during the Amos build. As I am building in “/opt,” I’m using sudo. As I do not want to deal with setting a new PATH for root, the solution is simply to move these three programs to a universally accessible place.

user@machine:/opt/MUMmer3.22$ sudo cp nucmer /usr/local/bin/
user@machine:/opt/MUMmer3.22$ sudo cp delta-filter /usr/local/bin/
user@machine:/opt/MUMmer3.22$ sudo cp show-coords /usr/local/bin/
user@machine:/opt/MUMmer3.22$ cd ..

And, with that, you are ready for the Amos build procedure. You will need two more apt-get installs to complete the Amos build.

user@machine:/opt/amos-3.0.0$ sudo apt-get install libboost-all-dev libqt3-headers

To build Amos with no errors and all of the listed components, note the ./configure settings and run the list below.

user@machine:/opt$ sudo tar xvfz amos-3.0.0.tar.gz 
user@machine:/opt$ cd amos-3.0.0/
user@machine:/opt/amos-3.0.0$ sudo ./configure --with-Qt-dir=/usr/share/qt3 --prefix=/opt/amos-3.0.0
user@machine:/opt/amos-3.0.0$ sudo make
user@machine:/opt/amos-3.0.0$ sudo make check
user@machine:/opt/amos-3.0.0$ sudo make install

If nucmer, delta-filter, show-coords, and the qt3 libraries are not present, you’ll see the following error list after running ./configure:

-- AMOS Assembler 2.0.8 Configuration Results --
  C compiler:          gcc -g -O2
  C++ compiler:        g++ -g -O2
  GCC version:         gcc (Ubuntu 4.4.3-4ubuntu5) 4.4.3
  Host System type:    x86_64-unknown-linux-gnu
  Install prefix:      /opt/amos-3.0.0
  Install eprefix:     ${prefix}

  See config.h for further configuration information.
  Email  with questions and bug reports.

WARNING! nucmer was not found but is required to run AMOScmp
   install nucmer if planning on using AMOScmp
WARNING! delta-filter was not found but is required to run AMOScmp-shortReads-alignmentTrimmed
   install delta-filter if planning on using AMOScmp-shortReads-alignmentTrimmed
WARNING! show-coords was not found but is required to run minimus2
   install show-coords if planning on using minimus2
WARNING! Qt3 toolkit was not found but is required to run AMOS GUIs
   install Qt3 or locate Qt3 with configure to build GUIs
   see config.log for more information on what went wrong
WARNING! Boost graph toolkit was not found but is required to run parts of the AMOS Scaffolder (Bambus 2)
   install Boost or locate Boost with configure to build Scaffolder
   see config.log for more information on what went wrong

And, finally, add these directories to your PATH.

user@machine:~$ cd
user@machine:~$ pico .profile

Add the following to your PATH statement:

/opt/amos-3.0.0/bin/:/opt/MUMmer3.22/:/opt/bfast-0.6.5a/butil/:

Crtl-X, “Y”, and quit.