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Dodano ciecia restryktazami

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LOCUS SCU87974 818 bp mRNA linear SYN 24-FEB-1997
DEFINITION Synthetic construct modified green fluorescent protein GFP5-ER
(mgfp5-ER) mRNA, complete cds.
ACCESSION U87974
VERSION U87974.1
KEYWORDS .
SOURCE synthetic construct
ORGANISM synthetic construct
other sequences; artificial sequences.
REFERENCE 1 (bases 1 to 818)
AUTHORS Siemering,K.R., Golbik,R., Sever,R. and Haseloff,J.
TITLE Mutations that suppress the thermosensitivity of green fluorescent
protein
JOURNAL Curr. Biol. 6 (12), 1653-1663 (1996)
PUBMED 8994830
REFERENCE 2 (bases 1 to 818)
AUTHORS Haseloff,J., Siemering,K.R., Prasher,D. and Hodge,S.
TITLE Removal of a cryptic intron and subcellular localisation of green
fluorescent protein are required to mark transgenic Arabidopsis
plants brightly
JOURNAL Proc. Natl. Acad. Sci. U.S.A. (1997) In press
REFERENCE 3 (bases 1 to 818)
AUTHORS Siemering,K.R., Golbik,R., Sever,R. and Haseloff,J.
TITLE Direct Submission
JOURNAL Submitted (31-JAN-1997) Division of Cell Biology, MRC Laboratory of
Molecular Biology, Hills Road, Cambridge CB2 2QH, UK
FEATURES Location/Qualifiers
source 1..818
/organism="synthetic construct"
/mol_type="mRNA"
/db_xref="taxon:32630"
gene 1..818
/gene="mgfp5-ER"
CDS 21..812
/gene="mgfp5-ER"
/note="contains codon usage changes that disrupt a cryptic
plant intron, mutations that increase the thermotolerance
and change the spectral characteristics of the protein, and
sequences that code for signal peptides that result in
retention of the protein in the plant endoplasmic
reticulum"
/codon_start=1
/transl_table=11
/product="modified green fluorescent protein GFP5-ER"
/protein_id="AAB47999.1"
/translation="MKTNLFLFLIFSLLLSLSSAEFSKGEELFTGVVPILVELDGDVNG
HKFSVSGEGEGDATYGKLTLKFICTTGKLPVPWPTLVTTFSYGVQCFSRYPDHMKRHDF
FKSAMPEGYVQERTIFFKDDGNYKTRAEVKFEGDTLVNRIELKGIDFKEDGNILGHKLE
YNYNSHNVYIMADKQKNGIKANFKTRHNIEDGGVQLADHYQQNTPIGDGPVLLPDNHYL
STQSALSKDPNEKRDHMVLLEFVTAAGITHGMDELYKHDEL"
ORIGIN
1 ggatccaagg agatataaca atgaagacta atctttttct ctttctcatc ttttcacttc
61 tcctatcatt atcctcggcc gaattcagta aaggagaaga acttttcact ggagttgtcc
121 caattcttgt tgaattagat ggtgatgtta atgggcacaa attttctgtc agtggagagg
181 gtgaaggtga tgcaacatac ggaaaactta cccttaaatt tatttgcact actggaaaac
241 tacctgttcc atggccaaca cttgtcacta ctttctctta tggtgttcaa tgcttttcaa
301 gatacccaga tcatatgaag cggcacgact tcttcaagag cgccatgcct gagggatacg
361 tgcaggagag gaccatcttc ttcaaggacg acgggaacta caagacacgt gctgaagtca
421 agtttgaggg agacaccctc gtcaacagga tcgagcttaa gggaatcgat ttcaaggagg
481 acggaaacat cctcggccac aagttggaat acaactacaa ctcccacaac gtatacatca
541 tggccgacaa gcaaaagaac ggcatcaaag ccaacttcaa gacccgccac aacatcgaag
601 acggcggcgt gcaactcgct gatcattatc aacaaaatac tccaattggc gatggccctg
661 tccttttacc agacaaccat tacctgtcca cacaatctgc cctttcgaaa gatcccaacg
721 aaaagagaga ccacatggtc cttcttgagt ttgtaacagc tgctgggatt acacatggca
781 tggatgaact atacaaacat gatgagcttt aagagctc
//

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#! /usr/bin/env python3
# vim:fenc=utf-8
#
# Copyright © 2024 user <user@penguin>
#
# Distributed under terms of the MIT license.
import os
from Bio import Entrez, SeqIO
from Bio.Seq import Seq
from Bio.SeqFeature import SeqFeature, FeatureLocation
from Bio.Restriction import RestrictionBatch, EcoRI, BamHI, HindIII, Bpu1102I
from Bio.Restriction import AllEnzymes, Analysis
from Bio.Graphics import GenomeDiagram
from reportlab.lib import colors
#%%
# Ustawienia Entrez
Entrez.email = "your_email@example.com" # Wpisz swój adres email
# Funkcja do pobierania sekwencji z NCBI i zapisywania jej lokalnie
def fetch_and_save_sequence(db, id, file_path):
handle = Entrez.efetch(db=db, id=id, rettype="gb", retmode="text")
record = SeqIO.read(handle, "genbank")
handle.close()
SeqIO.write(record, file_path, "genbank")
return record
# Funkcja do wczytywania sekwencji z lokalnego pliku
def load_local_sequence(file_path):
with open(file_path, 'r') as file:
record = SeqIO.read(file, "genbank")
return record
#%%
# ID dla sekwencji w NCBI
gfp_id = "U87974"
plasmid_id = "pET-28a(+)"
# Ścieżki do lokalnych plików
gfp_file_path = gfp_id+'.gb'
plasmid_file_path = plasmid_id+'.gb'
#%%
# Sprawdzanie i pobieranie sekwencji GFP
if not os.path.exists(gfp_file_path):
print(f"Plik {gfp_file_path} nie istnieje. Pobieranie z serwera NCBI...")
gfp_record = fetch_and_save_sequence("nuccore", gfp_id, gfp_file_path)
print(f"Pobrano i zapisano sekwencję GFP do pliku {gfp_file_path}.")
else:
print(f"Plik {gfp_file_path} istnieje. Wczytywanie danych z lokalnego pliku...")
gfp_record = load_local_sequence(gfp_file_path)
print(f"Wczytano dane z pliku {gfp_file_path}.")
gfp_seq = str(gfp_record.seq)
print(f"GFP Sequence: {gfp_seq[:60]}...")
#%%
# Sprawdzanie i pobieranie sekwencji plazmidu
if not os.path.exists(plasmid_file_path):
print(f"Plik {plasmid_file_path} nie istnieje. Pobieranie z serwera NCBI...")
record = fetch_and_save_sequence("nuccore", plasmid_id, plasmid_file_path)
print(f"Pobrano i zapisano sekwencję plazmidu do pliku {plasmid_file_path}.")
else:
print(f"Plik {plasmid_file_path} istnieje. Wczytywanie danych z lokalnego pliku...")
record = load_local_sequence(plasmid_file_path)
print(f"Wczytano dane z pliku {plasmid_file_path}.")
#%%
# Wyświetl etykiety (annotacje)
for feature in record.features:
print(f"Type: {feature.type}")
print(f"Location: {feature.location}")
if 'gene' in feature.qualifiers:
print(f"Gene: {feature.qualifiers['gene']}")
if 'product' in feature.qualifiers:
print(f"Product: {feature.qualifiers['product']}")
print()
#%%
# Znajdź i wyświetl sekwencję terminatora T7
for feature in record.features:
if feature.type == "terminator" and "T7" in feature.qualifiers.get('note', [''])[0]:
print("Terminator T7 znaleziony:")
print(f"Type: {feature.type}")
print(f"Location: {feature.location}")
print(f"Sequence: {record.seq[feature.location.start:feature.location.end]}")
print()
#%%
# Znajdź i wyświetl sekwencję terminatora T7
for feature in record.features:
if feature.type == "terminator" and "T7" in feature.qualifiers.get('note', [''])[0]:
print("Terminator T7 znaleziony:")
print(f"Type: {feature.type}")
print(f"Location: {feature.location}")
# Pobierz sekwencję terminatora
terminator_seq = record.seq[feature.location.start:feature.location.end]
# Sprawdź orientację i odwróć/uzupełnij jeśli potrzebne
if feature.strand == -1:
terminator_seq = terminator_seq.reverse_complement()
print(f"Sequence: {terminator_seq}")
print()
#%%
# Sekwencja DNA
dna_seq = record.seq
# Znajdź miejsca cięcia dla NcoI i Bpu1102I
ncoI_sites = NcoI.search(dna_seq)
bpu1102I_sites = Bpu1102I.search(dna_seq)
# Przyjmij pierwsze miejsca cięcia
ncoI_site = ncoI_sites[0]
bpu1102I_site = bpu1102I_sites[0]
# Wyodrębnij fragmenty 20 zasad od miejsc cięcia
ncoI_fragment = dna_seq[ncoI_site-16:ncoI_site+4] # 16 zasad przed i 4 po cięciu
bpu1102I_fragment = dna_seq[bpu1102I_site:bpu1102I_site+20] # 20 zasad po cięciu
# Lepkie końce
ncoI_sticky_end = ncoI_fragment[-4:]
ncoI_sticky_end_comp = ncoI_sticky_end.complement()
bpu1102I_sticky_end = bpu1102I_fragment[:4]
bpu1102I_sticky_end_comp = bpu1102I_sticky_end.complement()
# Funkcja do wyświetlania dwuniciowego DNA z lepkimi końcami w formacie schodkowym z indeksami dla dłuższej nici
def print_sticky_ends(seq1, sticky_end1, seq2, sticky_end2, start1, start2):
# Convert sequences to strings
seq1_str = str(seq1)
sticky_end1_str = str(sticky_end1)
comp_seq1_str = str(seq1.complement())
sticky_end1_comp_str = str(sticky_end1.complement())
seq2_str = str(seq2)
sticky_end2_str = str(sticky_end2)
comp_seq2_str = str(seq2.complement())
sticky_end2_comp_str = str(sticky_end2.complement())
# Add indexes to the ends
seq1_with_index = f"{seq1_str[:-1]} -{start1+len(seq1_str)-1}"
comp_seq1_with_index = f"{comp_seq1_str[:-1]}"
seq2_with_index = f"{start2}- {seq2_str[1:]}"
comp_seq2_with_index = f"{comp_seq2_str[1:]}"
# Lustrzane odbicie sekwencji
comp_seq2_with_index = comp_seq2_with_index[::-1]
sticky_end2_comp_str = sticky_end2_comp_str[::-1]
# Format the output as requested
print(f"5'-{seq1_with_index} {sticky_end1_str}-3' (+)")
print(f"3'-{comp_seq1_with_index}{sticky_end1_comp_str}-5'")
print()
print(f"5'-{sticky_end2_str} {seq2_with_index}-3' (+)")
print(f" {sticky_end2_comp_str}{comp_seq2_with_index}-5'")
# Wyświetl lepkie końce fragmentów
print("Fragmenty po cięciu NcoI i Bpu1102I:")
print_sticky_ends(ncoI_fragment[:-4], ncoI_sticky_end, bpu1102I_fragment[4:], bpu1102I_sticky_end, ncoI_site-16, bpu1102I_site)
#%%
# Dodanie sekwencji kodującej His6
his6_tag = "CACCACCACCACCACCAC" # Sekwencja kodująca 6x histydynę (His6)
#%%
# Sekwencja białka GFP z His6 tagiem na końcu
t = gfp_seq_with_his6 = gfp_seq + his6_tag
#%%
# Projektowanie starterów
forward_primer = gfp_seq[:20] # Pierwsze 20 nukleotydów sekwencji GFP
reverse_primer = str(Seq(gfp_seq_with_his6[-20:]).reverse_complement()) # Ostatnie 20 nukleotydów + His6
print(f"Forward Primer: {forward_primer}")
print(f"Reverse Primer: {reverse_primer}")
#%%
# Miejsca cięcia restryktazy
enzymes = RestrictionBatch([EcoRI, BamHI, HindIII])
#enzymes = RestrictionBatch([BamHI, ])
restriction_sites = enzymes.search(record.seq)
#%%
# Przeprowadzenie analizy restrykcyjnej
analysis = Analysis(AllEnzymes, record.seq)
# Wynik analizy
results = analysis.full()
# Wyświetlanie wyników
#for enzyme in results:
# if len(results[enzyme]) > 0:
# print(f"{enzyme}: {results[enzyme]}")
#%%
# Utwórz diagram plazmidu
diagram = GenomeDiagram.Diagram("PUC19 Plasmid Map")
track = diagram.new_track(1, name="Annotated Features", greytrack=True)
feature_set = track.new_set()
# Dodanie sekwencji kodującej GFP
feature_set.add_feature(
SeqFeature(FeatureLocation(0, len(gfp_seq)), strand=+1),
name="GFP Coding Sequence",
label=True,
color=colors.lightblue
)
# Dodanie His6 tagu
feature_set.add_feature(
SeqFeature(FeatureLocation(len(gfp_seq), len(gfp_seq_with_his6)), strand=+1),
name="His6 Tag",
label=True,
color=colors.lightgreen
)
# Dodanie forward primer
feature_set.add_feature(
SeqFeature(FeatureLocation(0, len(forward_primer)), strand=+1),
name="Forward Primer",
label=True,
color=colors.orange
)
# Dodanie reverse primer
feature_set.add_feature(
SeqFeature(FeatureLocation(len(gfp_seq_with_his6) - len(reverse_primer), len(gfp_seq_with_his6)), strand=-1),
name="Reverse Primer",
label=True,
color=colors.red
)
# Dodanie miejsc cięcia restryktazy
for enzyme, sites in restriction_sites.items():
for site in sites:
feature_set.add_feature(
SeqFeature(FeatureLocation(site, site + 1), strand=0),
name=enzyme,
label=True,
color=colors.purple
)
# Rysowanie diagramu
diagram.draw(format="circular", circular=True, pagesize='A4', start=0, end=len(record), circle_core=0.5)
diagram.write("pdf/plasmid_map.pdf", "PDF")
print("Zapisano diagram plazmidu do pliku 'plasmid_map.pdf'")

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LOCUS 40924_17796 5369 bp DNA circular SYN 14-OCT-2021
DEFINITION synthetic circular DNA.
ACCESSION .
VERSION .
KEYWORDS .
SOURCE synthetic DNA construct
ORGANISM synthetic DNA construct
REFERENCE 1 (bases 1 to 5369)
AUTHORS caoheibi
TITLE Direct Submission
REFERENCE 2 (bases 1 to 5369)
AUTHORS .
TITLE Direct Submission
COMMENT SGRef: number: 1; type: "Journal Article"
FEATURES Location/Qualifiers
source 1..5369
/mol_type="other DNA"
/organism="synthetic DNA construct"
terminator complement(26..73)
/label=T7 terminator
/note="transcription terminator for bacteriophage T7 RNA
polymerase"
CDS complement(140..157)
/codon_start=1
/label=6xHis
/note="6xHis affinity tag"
/translation="HHHHHH"
CDS complement(207..239)
/codon_start=1
/label=T7 tag (gene 10 leader)
/note="leader peptide from bacteriophage T7 gene 10"
/translation="MASMTGGQQMG"
CDS complement(243..260)
/codon_start=1
/label=thrombin site
/note="thrombin recognition and cleavage site"
/translation="LVPRGS"
CDS complement(270..287)
/codon_start=1
/label=6xHis
/note="6xHis affinity tag"
/translation="HHHHHH"
RBS complement(306..328)
/label=RBS
/note="efficient ribosome binding site from bacteriophage
T7 gene 10 (Olins and Rangwala, 1989)"
protein_bind complement(343..367)
/label=lac operator
/note="The lac repressor binds to the lac operator to
inhibit transcription in E. coli. This inhibition can be
relieved by adding lactose or
isopropyl-beta-D-thiogalactopyranoside (IPTG)."
promoter complement(368..386)
/label=T7 promoter
/note="promoter for bacteriophage T7 RNA polymerase"
promoter 695..772
/label=lacI promoter
CDS 773..1852
/codon_start=1
/label=lacI
/note="lac repressor"
/translation="VKPVTLYDVAEYAGVSYQTVSRVVNQASHVSAKTREKVEAAMAEL
NYIPNRVAQQLAGKQSLLIGVATSSLALHAPSQIVAAIKSRADQLGASVVVSMVERSGV
EACKAAVHNLLAQRVSGLIINYPLDDQDAIAVEAACTNVPALFLDVSDQTPINSIIFSH
EDGTRLGVEHLVALGHQQIALLAGPLSSVSARLRLAGWHKYLTRNQIQPIAEREGDWSA
MSGFQQTMQMLNEGIVPTAMLVANDQMALGAMRAITESGLRVGADISVVGYDDTEDSSC
YIPPLTTIKQDFRLLGQTSVDRLLQLSQGQAVKGNQLLPVSLVKRKTTLAPNTQTASPR
ALADSLMQLARQVSRLESGQ"
protein_bind 1868..1889
/label=CAP binding site
/note="CAP binding activates transcription in the presence
of cAMP."
CDS 2664..2852
/codon_start=1
/label=rop
/note="Rop protein, which maintains plasmids at low copy
number"
/translation="VTKQEKTALNMARFIRSQTLTLLEKLNELDADEQADICESLHDHA
DELYRSCLARFGDDGENL"
misc_feature 2957..3099
/label=bom
/note="basis of mobility region from pBR322"
rep_origin complement(3285..3873)
/direction=LEFT
/label=ori
/note="high-copy-number ColE1/pMB1/pBR322/pUC origin of
replication"
CDS 3995..4807
/codon_start=1
/label=KanR
/note="aminoglycoside phosphotransferase"
/translation="MSHIQRETSCSRPRLNSNMDADLYGYKWARDNVGQSGATIYRLYG
KPDAPELFLKHGKGSVANDVTDEMVRLNWLTEFMPLPTIKHFIRTPDDAWLLTTAIPGK
TAFQVLEEYPDSGENIVDALAVFLRRLHSIPVCNCPFNSDRVFRLAQAQSRMNNGLVDA
SDFDDERNGWPVEQVWKEMHKLLPFSPDSVVTHGDFSLDNLIFDEGKLIGCIDVGRVGI
ADRYQDLAILWNCLGEFSPSLQKRLFQKYGIDNPDMNKLQFHLMLDEFF"
rep_origin complement(4903..5358)
/direction=LEFT
/label=f1 ori
/note="f1 bacteriophage origin of replication; arrow
indicates direction of (+) strand synthesis"
ORIGIN
1 atccggatat agttcctcct ttcagcaaaa aacccctcaa gacccgttta gaggccccaa
61 ggggttatgc tagttattgc tcagcggtgg cagcagccaa ctcagcttcc tttcgggctt
121 tgttagcagc cggatctcag tggtggtggt ggtggtgctc gagtgcggcc gcaagcttgt
181 cgacggagct cgaattcgga tccgcgaccc atttgctgtc caccagtcat gctagccata
241 tggctgccgc gcggcaccag gccgctgctg tgatgatgat gatgatggct gctgcccatg
301 gtatatctcc ttcttaaagt taaacaaaat tatttctaga ggggaattgt tatccgctca
361 caattcccct atagtgagtc gtattaattt cgcgggatcg agatctcgat cctctacgcc
421 ggacgcatcg tggccggcat caccggcgcc acaggtgcgg ttgctggcgc ctatatcgcc
481 gacatcaccg atggggaaga tcgggctcgc cacttcgggc tcatgagcgc ttgtttcggc
541 gtgggtatgg tggcaggccc cgtggccggg ggactgttgg gcgccatctc cttgcatgca
601 ccattccttg cggcggcggt gctcaacggc ctcaacctac tactgggctg cttcctaatg
661 caggagtcgc ataagggaga gcgtcgagat cccggacacc atcgaatggc gcaaaacctt
721 tcgcggtatg gcatgatagc gcccggaaga gagtcaattc agggtggtga atgtgaaacc
781 agtaacgtta tacgatgtcg cagagtatgc cggtgtctct tatcagaccg tttcccgcgt
841 ggtgaaccag gccagccacg tttctgcgaa aacgcgggaa aaagtggaag cggcgatggc
901 ggagctgaat tacattccca accgcgtggc acaacaactg gcgggcaaac agtcgttgct
961 gattggcgtt gccacctcca gtctggccct gcacgcgccg tcgcaaattg tcgcggcgat
1021 taaatctcgc gccgatcaac tgggtgccag cgtggtggtg tcgatggtag aacgaagcgg
1081 cgtcgaagcc tgtaaagcgg cggtgcacaa tcttctcgcg caacgcgtca gtgggctgat
1141 cattaactat ccgctggatg accaggatgc cattgctgtg gaagctgcct gcactaatgt
1201 tccggcgtta tttcttgatg tctctgacca gacacccatc aacagtatta ttttctccca
1261 tgaagacggt acgcgactgg gcgtggagca tctggtcgca ttgggtcacc agcaaatcgc
1321 gctgttagcg ggcccattaa gttctgtctc ggcgcgtctg cgtctggctg gctggcataa
1381 atatctcact cgcaatcaaa ttcagccgat agcggaacgg gaaggcgact ggagtgccat
1441 gtccggtttt caacaaacca tgcaaatgct gaatgagggc atcgttccca ctgcgatgct
1501 ggttgccaac gatcagatgg cgctgggcgc aatgcgcgcc attaccgagt ccgggctgcg
1561 cgttggtgcg gatatctcgg tagtgggata cgacgatacc gaagacagct catgttatat
1621 cccgccgtta accaccatca aacaggattt tcgcctgctg gggcaaacca gcgtggaccg
1681 cttgctgcaa ctctctcagg gccaggcggt gaagggcaat cagctgttgc ccgtctcact
1741 ggtgaaaaga aaaaccaccc tggcgcccaa tacgcaaacc gcctctcccc gcgcgttggc
1801 cgattcatta atgcagctgg cacgacaggt ttcccgactg gaaagcgggc agtgagcgca
1861 acgcaattaa tgtaagttag ctcactcatt aggcaccggg atctcgaccg atgcccttga
1921 gagccttcaa cccagtcagc tccttccggt gggcgcgggg catgactatc gtcgccgcac
1981 ttatgactgt cttctttatc atgcaactcg taggacaggt gccggcagcg ctctgggtca
2041 ttttcggcga ggaccgcttt cgctggagcg cgacgatgat cggcctgtcg cttgcggtat
2101 tcggaatctt gcacgccctc gctcaagcct tcgtcactgg tcccgccacc aaacgtttcg
2161 gcgagaagca ggccattatc gccggcatgg cggccccacg ggtgcgcatg atcgtgctcc
2221 tgtcgttgag gacccggcta ggctggcggg gttgccttac tggttagcag aatgaatcac
2281 cgatacgcga gcgaacgtga agcgactgct gctgcaaaac gtctgcgacc tgagcaacaa
2341 catgaatggt cttcggtttc cgtgtttcgt aaagtctgga aacgcggaag tcagcgccct
2401 gcaccattat gttccggatc tgcatcgcag gatgctgctg gctaccctgt ggaacaccta
2461 catctgtatt aacgaagcgc tggcattgac cctgagtgat ttttctctgg tcccgccgca
2521 tccataccgc cagttgttta ccctcacaac gttccagtaa ccgggcatgt tcatcatcag
2581 taacccgtat cgtgagcatc ctctctcgtt tcatcggtat cattaccccc atgaacagaa
2641 atccccctta cacggaggca tcagtgacca aacaggaaaa aaccgccctt aacatggccc
2701 gctttatcag aagccagaca ttaacgcttc tggagaaact caacgagctg gacgcggatg
2761 aacaggcaga catctgtgaa tcgcttcacg accacgctga tgagctttac cgcagctgcc
2821 tcgcgcgttt cggtgatgac ggtgaaaacc tctgacacat gcagctcccg gagacggtca
2881 cagcttgtct gtaagcggat gccgggagca gacaagcccg tcagggcgcg tcagcgggtg
2941 ttggcgggtg tcggggcgca gccatgaccc agtcacgtag cgatagcgga gtgtatactg
3001 gcttaactat gcggcatcag agcagattgt actgagagtg caccatatat gcggtgtgaa
3061 ataccgcaca gatgcgtaag gagaaaatac cgcatcaggc gctcttccgc ttcctcgctc
3121 actgactcgc tgcgctcggt cgttcggctg cggcgagcgg tatcagctca ctcaaaggcg
3181 gtaatacggt tatccacaga atcaggggat aacgcaggaa agaacatgtg agcaaaaggc
3241 cagcaaaagg ccaggaaccg taaaaaggcc gcgttgctgg cgtttttcca taggctccgc
3301 ccccctgacg agcatcacaa aaatcgacgc tcaagtcaga ggtggcgaaa cccgacagga
3361 ctataaagat accaggcgtt tccccctgga agctccctcg tgcgctctcc tgttccgacc
3421 ctgccgctta ccggatacct gtccgccttt ctcccttcgg gaagcgtggc gctttctcat
3481 agctcacgct gtaggtatct cagttcggtg taggtcgttc gctccaagct gggctgtgtg
3541 cacgaacccc ccgttcagcc cgaccgctgc gccttatccg gtaactatcg tcttgagtcc
3601 aacccggtaa gacacgactt atcgccactg gcagcagcca ctggtaacag gattagcaga
3661 gcgaggtatg taggcggtgc tacagagttc ttgaagtggt ggcctaacta cggctacact
3721 agaaggacag tatttggtat ctgcgctctg ctgaagccag ttaccttcgg aaaaagagtt
3781 ggtagctctt gatccggcaa acaaaccacc gctggtagcg gtggtttttt tgtttgcaag
3841 cagcagatta cgcgcagaaa aaaaggatct caagaagatc ctttgatctt ttctacgggg
3901 tctgacgctc agtggaacga aaactcacgt taagggattt tggtcatgaa caataaaact
3961 gtctgcttac ataaacagta atacaagggg tgttatgagc catattcaac gggaaacgtc
4021 ttgctctagg ccgcgattaa attccaacat ggatgctgat ttatatgggt ataaatgggc
4081 tcgcgataat gtcgggcaat caggtgcgac aatctatcga ttgtatggga agcccgatgc
4141 gccagagttg tttctgaaac atggcaaagg tagcgttgcc aatgatgtta cagatgagat
4201 ggtcagacta aactggctga cggaatttat gcctcttccg accatcaagc attttatccg
4261 tactcctgat gatgcatggt tactcaccac tgcgatcccc gggaaaacag cattccaggt
4321 attagaagaa tatcctgatt caggtgaaaa tattgttgat gcgctggcag tgttcctgcg
4381 ccggttgcat tcgattcctg tttgtaattg tccttttaac agcgatcgcg tatttcgtct
4441 cgctcaggcg caatcacgaa tgaataacgg tttggttgat gcgagtgatt ttgatgacga
4501 gcgtaatggc tggcctgttg aacaagtctg gaaagaaatg cataaacttt tgccattctc
4561 accggattca gtcgtcactc atggtgattt ctcacttgat aaccttattt ttgacgaggg
4621 gaaattaata ggttgtattg atgttggacg agtcggaatc gcagaccgat accaggatct
4681 tgccatccta tggaactgcc tcggtgagtt ttctccttca ttacagaaac ggctttttca
4741 aaaatatggt attgataatc ctgatatgaa taaattgcag tttcatttga tgctcgatga
4801 gtttttctaa gaattaattc atgagcggat acatatttga atgtatttag aaaaataaac
4861 aaataggggt tccgcgcaca tttccccgaa aagtgccacc tgaaattgta aacgttaata
4921 ttttgttaaa attcgcgtta aatttttgtt aaatcagctc attttttaac caataggccg
4981 aaatcggcaa aatcccttat aaatcaaaag aatagaccga gatagggttg agtgttgttc
5041 cagtttggaa caagagtcca ctattaaaga acgtggactc caacgtcaaa gggcgaaaaa
5101 ccgtctatca gggcgatggc ccactacgtg aaccatcacc ctaatcaagt tttttggggt
5161 cgaggtgccg taaagcacta aatcggaacc ctaaagggag cccccgattt agagcttgac
5221 ggggaaagcc ggcgaacgtg gcgagaaagg aagggaagaa agcgaaagga gcgggcgcta
5281 gggcgctggc aagtgtagcg gtcacgctgc gcgtaaccac cacacccgcc gcgcttaatg
5341 cgccgctaca gggcgcgtcc cattcgcca
//