I just ran across exactly this challenge, where I have the P, Q, G and Y parameters (in my case from an XML document), but M2Crypto does not have a way for me to create a valid public key from them.

I resorted to using pyasn1 to produce a PEM public key string, then loading that PEM public key using the M2Crypto.DSA.load_pub_key_bio factory function.

My rough code follows, in case it's useful to somebody in the future.

```
import sys
import M2Crypto
if sys.version_info[0] >= 3:
bin = "{0:#0b}".format
from functools import reduce
def _a2bits(chars):
"""Convert a string to its bits representation as a tuple of 0's and 1's"""
return tuple(c == '1' and 1 or 0 for c in (bin(reduce(lambda x, y : (x<<8)+y, (ord(c) for c in chars), 1))[3:]))
def _make_dsa_pubkey_pem(p, q, g, y):
from pyasn1.type import univ, namedtype
from pyasn1.codec.der import encoder
import base64
class DSSParameters(univ.Sequence):
componentType = namedtype.NamedTypes(
namedtype.NamedType('p', univ.Integer()),
namedtype.NamedType('q', univ.Integer()),
namedtype.NamedType('g', univ.Integer())
)
class AlgorithmIdentifier(univ.Sequence):
componentType = namedtype.NamedTypes(
namedtype.NamedType('algorithm', univ.ObjectIdentifier()),
namedtype.OptionalNamedType('parameters', DSSParameters())
)
class SubjectPublicKeyInfo(univ.Sequence):
componentType = namedtype.NamedTypes(
namedtype.NamedType('algorithm', AlgorithmIdentifier()),
namedtype.NamedType('subjectPublicKey', univ.BitString()),
)
class DSAPublicKey(univ.Integer):
pass
dss_parameters = DSSParameters()
dss_parameters.setComponentByName('p', p)
dss_parameters.setComponentByName('q', q)
dss_parameters.setComponentByName('g', g)
algorithm_identifier = AlgorithmIdentifier()
algorithm_identifier.setComponentByName('algorithm', univ.ObjectIdentifier((1, 2, 840, 10040, 4, 1)))
algorithm_identifier.setComponentByName('parameters', dss_parameters)
subject_public_key_info = SubjectPublicKeyInfo()
subject_public_key_info.setComponentByName('algorithm', algorithm_identifier)
subject_public_key_info.setComponentByName('subjectPublicKey', _a2bits(encoder.encode(DSAPublicKey(y))))
der = encoder.encode(subject_public_key_info)
return '-----BEGIN PUBLIC KEY-----\n' + base64.encodestring(der) + '-----END PUBLIC KEY-----\n'
p = 8652574980431835801046702501319893323628737876463029580298337449414347224525946403948627650414713523236662848134622261400464992784181209952478362597409469
q = 1102869237300951505579173947124947290564874845679
g = 4112516799587510153843416910187202701228216851472313407150913894984801048587575223178182928872781591943506026197710239402382269043796703824161282824797865
y = 2998329614411012012383616762831086330705701157164243056626309777500058049666595469116052965199021788182564677073758748878456479902088304265763443201269078
pem = _make_dsa_pubkey_pem(p, q, g, y)
bio = M2Crypto.BIO.MemoryBuffer(pem)
dsapub = M2Crypto.DSA.load_pub_key_bio(bio)
```