\r is not a valid character class, I think you meant to use
\s instead. You can reduce the groups if you don't use them either.
But most of all, you need to extract your groups correctly:
match = re.search(r'>(\w+)\s+(\w+)', line)
tag, gene = match.groups()
myDict[tag] = gene
By creating only two capturing groups, we can more simply extract those two with
.groups() and directly assign them to two variables,
However, reading up on the FASTA format seems to indicate this is a multi-line format with the tag on one line, the gene data on multiple lines after that. In that case your
\r was meant to match the newline. This won't work as you read the file one line at a time.
It would be much simpler to read that format without regular expressions like so:
myDict = dict()
with open('d.fasta', 'rU') as fileData:
tag = None
for line in fileData:
line = line.strip()
if not line:
if line == '>':
tag = line[1:]
myDict[tag] = ''
assert tag is not None, 'Invalid format, found gene without tag'
myDict[tag] += line
This reads the file line by line, detecting tags based on the starting
> character, then reads multiple lines of gene information collecting it into your dictionary under the most-recently read tag.
rU mode; we open the file using python's universal newlines mode, to handle whatever newline convention was used to create the file.
Last but not least; take a look at the BioPy project; their
Bio.SeqIO module handles FASTA plus many other formats perfectly.