IGEM:Harvard/2006/Container Design 4/Python Code
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- Full Code - Finalized 7/11
- Split Scaffold
- Oligo Splitting
- Adding Aptamers
- Adding Latches
- Pickle Scripts
Add aptamers
#######
# Add aptamers to the ends of the appropriate oligos.
#######
# Constants
apt_seq = 'GGTTGGTGTGGTTGG'
T_linker = 'TTT'
print oligo_ra
num_aptamers = int(raw_input('How many aptamers do you want to add? '))
i = 0
while i < num_aptamers:
oligo_num = int(raw_input('Which oligo needs an aptamer? '))
if oligo_num < len(oligo_ra):
# Add the aptamer to that oligo
oligo_ra[oligo_num] = oligo_ra[oligo_num] + T_linker + apt_seq
i = i + 1
else:
print 'oligo ' + str(oligo_num) + ' out of range.'
print oligo_ra
Add aptamers using File Input rather than User Input
#####
# Add apts this time using file input instead of user input
#####
# Constants
apt_seq = 'GGTTGGTGTGGTTGG'
T_linker = 'TTT'
fin_barrel = None
try:
fin_barrel = open("barrel_apts_to_add.txt", "r")
except IOError, e:
print "Error in file IO: ", e
# Ask the user if they are running a lid or a barrel
shape = int(raw_input("Enter 1 if you are running a barrel, 2 if lid: "))
if (shape == 1):
apts_to_add = pickle.load(fin_barrel)
for apt_specs in apts_to_add:
oligo_num = apt_specs[0]
type = apt_specs[1]
if (type == 1):
# apt is pointing in so add 'I' as a flag at the end
oligo_ra[oligo_num] = oligo_ra[oligo_num] + T_linker + apt_seq + 'I'
elif(type == 2):
# apt is pointing out so add 'O' as a flag
oligo_ra[oligo_num] = oligo_ra[oligo_num] + T_linker + apt_seq + 'O'
else:
# incorrect type
print 'Bad input - aptamer needs to be pointing in or out'
Print Aptamer Oligos
Oligo sorting - find an print out those with aptamers
#####
# oligo sorting
#####
# sort based on whether or not there's an aptamer attached to the end of
# an oligo
apt = re.compile('TTTGGTTGGTGTGGTTGG')
oligo_num = 0
for oligo in oligo_ra:
m = apt.search(oligo)
if m:
print 'Match found: ', oligo + ' : ' + str(oligo_num)
else:
print 'No match' + str(oligo_num)
oligo_num = oligo_num + 1
Modifications to honeycomb_v1 scripts
- Modifications to William's program to print each oligo number next to what tokens it represents
oligo_num = 0
for oligo in OTP_ra:
for token in oligo:
print str(oligo_num) + ": ", token
oligo_num = oligo_num + 1
- Modifications to William's program to print a grid of oligo numbers completely filled in
- add this part to main (AAA or BBB)
####
# generate and print the oligo grid
####
# Initialize the grid with all periods
num_strands = len(TPP_ra)
num_subzones = len(TPP_ra[0])
sub_token_visit_ra = ['.' for subzone_num in range(num_subzones)]
grid_ra = [sub_token_visit_ra[:] for strand_num in range(num_strands)]
oligo_num = 0
for oligo in OTP_ra:
grid_ra = generate_oligo_path(oligo, oligo_num, grid_ra)
oligo_num = oligo_num + 1
print grid_ra
print_all_oligos(grid_ra, num_strands, num_subzones)
- add this part to honeycomb_pointers_v1.py
# The idea here is to have a function that adds the numbers of one oligo path
# to the appropriate places in the big grid array. Eventually this will be printed
# in main. Also it needs to be initialized in main. Oligo_path is the path of
# one oligo, while grid_ra is the grid that is constantly being updated until
# it is printed in main. oligo_num is number that will be inputed to the grid_ra.
def generate_oligo_path(oligo_path, oligo_num, grid_ra):
num_path_tokens = len(oligo_path)
# Assign visits
for path_token_num in range(num_path_tokens):
token = oligo_path[path_token_num]
strand = token[0]
subzone = token[1]
grid_ra[strand][subzone] = oligo_num
return grid_ra
def print_all_oligos(grid_ra, num_strands, num_subzones):
spacer = ' '
for strand_num in range(num_strands):
for subzone_num in range(num_subzones):
visitor_string = str(grid_ra[strand_num][subzone_num])
sys.stdout.write(visitor_string)
sys.stdout.write(spacer[:4 - len(visitor_string)])
sys.stdout.write('\n')
