Exemplo n.º 1
0
    def test_cut_feat(self):
        puc19 = read('PUC19_MarkBudde.gb')
        pf, pr = cloning_primers(puc19)
        pcrProd = pcr(pf, pr, puc19)
        self.assertEqual(23, len(pcrProd.features))
        #print len(pcrProd.cut(EcoRI)[1].features)
        self.assertEqual(17, len(pcrProd.cut(EcoRI)[1].features))

        def amplicon_to_dseqrecord(a):
            d = Dseqrecord(a.seq)
            d.features = a.features
            return d

        pcrProdDseqrecord = amplicon_to_dseqrecord(pcrProd)
        self.assertEqual(17, len(pcrProdDseqrecord.cut(EcoRI)[1].features))
Exemplo n.º 2
0
    def test_cut_feat(self):
        puc19 = read('PUC19_MarkBudde.gb')
        pf, pr = cloning_primers(puc19)
        pcrProd = pcr(pf, pr, puc19)
        self.assertEqual(23, len(pcrProd.features))
        #print len(pcrProd.cut(EcoRI)[1].features)
        self.assertEqual(17, len(pcrProd.cut(EcoRI)[1].features))

        def amplicon_to_dseqrecord(a):
            d = Dseqrecord(a.seq)
            d.features = a.features
            return d

        pcrProdDseqrecord = amplicon_to_dseqrecord(pcrProd)
        self.assertEqual(17, len(pcrProdDseqrecord.cut(EcoRI)[1].features))
Exemplo n.º 3
0
    def __init__(self, enzyme, data):
        fp_tail = "ttaaat"
        rp_tail = "taattaa"
        if enzyme == ZraI:
            fp = p577
            rp = p342
            desc_re  = re.compile("pYPKa_Z_([^\d\W]\w{2,15})tp")
            self.letter = "Z"
        elif enzyme == AjiI:
            fp = p468
            rp = p342
            fp_tail = "aa"
            rp_tail = ""
            desc_re  = re.compile("pYPKa_A_([^\d\W]\w{2,15})")
            self.letter = "A"
        elif enzyme == EcoRV:
            fp = p568
            rp = p342
            desc_re  = re.compile("pYPKa_E_([^\d\W]\w{2,15})tp")
            self.letter = "E"
        else:
            raise Exception(u"Enzyme has to be ZraI, Ajii or EcoRV, but got {}".format(enzyme))

        self.enzyme  = enzyme

        self.insert_length = cloned(pYPKa, enzyme, data)

        if self.insert_length:
            m = desc_re.search(data.description)
            if not m:
                raise Exception(u"{} is a pYPKa_{} sequence but was not correctly named.".format(data.description,
                                                                                                self.letter))
            self.insert_description = m.group(1)
            self.name = m.group(0)
            self.code = "{} = read('{}.txt')".format({ "Z":"first",
                                                       "A":"middle",
                                                       "E":"last"}[self.letter],
                                                      self.name)
            self.files = { "{}.txt".format(self.name)       : data.format("gb").encode("utf-8"),
                           "{}_plan.rst".format(self.name) :  u"This vector was given!"}
            self.rec = data
            self.flag = True

        elif data.linear:
            self.insert_description = data.name # .id .description
            f,r = pydna.cloning_primers(data,
                                        minlength=pYPKa_clone.minlength,
                                        maxlength=pYPKa_clone.maxlength,
                                        fp_tail=fp_tail,
                                        rp_tail=rp_tail)


            self.insert = pydna.pcr(f, r, data)

            self.insert_length = len(self.insert)

            self.insert.description+= "_prd"

            self.name = u"pYPKa_{}_{}{}".format(self.letter,
                                                data.name.split("tp")[0],
                                                {ZraI : "tp",
                                                 AjiI : "",
                                                 EcoRV: "tp" }[enzyme])

            code = pYPKa_clone.codetempl.format( enz = self.enzyme,
                                                 tp  = data.name,
                                                 f   = f.format("fasta"),
                                                 r   = r.format("fasta"),
                                                 vn  = self.name)



            self.rec =    (pYPKa.linearize(self.enzyme) + self.insert).looped().synced("tcgcgcgtttcggtgatgacggtgaaaacctctg")
            self.rec_rv = (pYPKa.linearize(self.enzyme) + self.insert.rc()).looped().synced("tcgcgcgtttcggtgatgacggtgaaaacctctg")

            self.rec.id = self.name[:15]

            self.rec.description = self.name

            plan = pYPKa_clone.plantempl.format( template =  u"{}_template".format(data.name),
                                                 rec = self.name,
                                                 fwd = self.insert.forward_primer.name,
                                                 rev = self.insert.reverse_primer.name,
                                                 figure = add_space(self.insert.figure()),
                                                 program = add_space(self.insert.program()),
                                                 pcr_product =self.insert_description,
                                                 length = len(self.insert),
                                                 enz=enzyme,
                                                 name = self.name,
                                                 line =  "="*len(self.name),
                                                 fp = fp.name,
                                                 rp = rp.name,
                                                 f  = f.name,
                                                 correct_products =  ", ".join(str(f) for f in [len(p) for p in pydna.Anneal((fp,rp,f), self.rec).products]),
                                                 reversed_products =  ", ".join(str(f) for f in [len(p) for p in pydna.Anneal((fp,rp,f), self.rec_rv).products]),
                                                 clone_empty =  ", ".join(str(f) for f in [len(p) for p in pydna.Anneal((fp,rp,f), pYPKa).products]))

            self.files = { "{}_template.txt".format(data.name) : data.format("gb").decode("utf-8"),
                           "{}.txt".format(self.insert_description) : self.insert.format("gb").decode("utf-8"),
                           "{}.txt".format(self.name)               : self.rec.format("gb").decode("utf-8"),
                           "{}.py".format(self.name)                : code,
                           "{}_plan.rst".format(self.name)          : plan}

            self.code = "from {0} import {0} as {1}".format(self.name,
                                                            {ZraI : "first",
                                                             AjiI : "middle",
                                                             EcoRV: "last" }[enzyme])

            self.flag = False
        else:
            raise Exception("{} has to be a linear DNA fragment or a pYPKa_{} clone!".format(data.description,
                                                                                             self.letter))
Exemplo n.º 4
0
def test_primer_Design_saving_to_text_file():

    files_ = [dedent(x) for x in
    ('''\
    >fw64 t-sequence
    atgactgctaacccttc
    >rv64 t-sequence
    catcgtaagtttcgaac''',

    '''\
    >fw64 t-sequence
    atgactgctaacccttcN
    >rv64 t-sequence
    catcgtaagtttcgaacN''',

    '''\
    >fw64 t-sequence
    atgactgctaacccttcN''',

    '''\
    >fw64 t-sequence
    atgactgctaacccttcN
    >rv64 t-sequence
    catcgtaagtttcgaac''',

    '''\
    >rv64 t-sequence
    catcgtaagtttcgaacN''',

    '''\
    >rv64 t-sequence
    catcgtaagtttcgaacN
    >fw64 t-sequence
    atgactgctaacccttc''',

    '''\
    >fw64 t-sequenceZ
    atgactgctaacccttc
    >rv64 t-sequenceZ
    catcgtaagtttcgaac''',

    '''\
    >fw64 t-sequenceZ
    atgactgctaacccttc
    >rv64 t-sequenceZ
    catcgtaagtttcgaac
    >fw64 t-sequence
    atgactgctaacccttc
    >rv64 t-sequence
    catcgtaagtttcgaac''',

    '''\
    >fw64x t-sequence
    atgactgctaacccttc
    >rv64x t-sequence
    catcgtaagtttcgaac''',

    '''\
    >fw64x t-sequence
    atgactgctaacccttc
    >rv64x t-sequence
    catcgtaagtttcgaac
    >fw64 t-sequence
    atgactgctaacccttc
    >rv64 t-sequence
    catcgtaagtttcgaac''',
    )]

    templ=Dseqrecord("atgactgctaacccttccttggtgttgaacaagatcgacgacatttcgttcgaaacttacgatg")

    templ.accession = "t-sequence"

    try:
        os.remove("PRIMERS.TXT")
    except OSError:
        pass

    pf, pr = cloning_primers(templ, path="PRIMERS.TXT")

    assert os.path.isfile("PRIMERS.TXT")

    with open("PRIMERS.TXT", "r") as f: text=f.read().strip()

    assert text == files_[0]

    with open("PRIMERS.TXT", "w") as f: text=f.write(files_[1])

    pf, pr = cloning_primers(templ, path="PRIMERS.TXT")

    with open("PRIMERS.TXT", "r") as f: text=f.read().strip()

    assert text == files_[1]

    with open("PRIMERS.TXT", "w") as f: text=f.write(files_[2])

    pf, pr = cloning_primers(templ, path="PRIMERS.TXT")

    with open("PRIMERS.TXT", "r") as f: text=f.read().strip()

    assert text == files_[3]

    with open("PRIMERS.TXT", "w") as f: text=f.write(files_[4])

    pf, pr = cloning_primers(templ, path="PRIMERS.TXT")

    with open("PRIMERS.TXT", "r") as f: text=f.read().strip()

    assert text == files_[5]

    with open("PRIMERS.TXT", "w") as f: text=f.write(files_[6])

    pf, pr = cloning_primers(templ, path="PRIMERS.TXT")

    with open("PRIMERS.TXT", "r") as f: text=f.read().strip()

    assert text == files_[7]

    with open("PRIMERS.TXT", "w") as f: text=f.write(files_[8])

    pf, pr = cloning_primers(templ, path="PRIMERS.TXT")

    with open("PRIMERS.TXT", "r") as f: text=f.read().strip()

    assert text == files_[9]

    with open("PRIMERS.TXT", "w") as f: text=f.write('')

    pf, pr = cloning_primers(templ, path="PRIMERS.TXT")

    f, r = parse("PRIMERS.TXT", ds=False)

    assert f.description == "fw64 t-sequence"
    assert r.description == "rv64 t-sequence"