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G.tigrina Hox gene DthoxC insertion into prokaryote E.coli – by UNIamCloning.

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Presentation on theme: "G.tigrina Hox gene DthoxC insertion into prokaryote E.coli – by UNIamCloning."— Presentation transcript:

1 G.tigrina Hox gene DthoxC insertion into prokaryote E.coli – by UNIamCloning

2 G.Tigrina & the Hox genes G. tigrina – (also known as Dugesia tigrina) – are free-living flatworms found in still fresh water. Commonly used in biology teaching labs, these planarians show a profound capability to regenerate bidirectionally from cuts made at nearly any point in their bodies. http://www.newscientist.com/data/galleries/regeneration/00494937c40.jpg http://biomessecond09.wikispaces.com/file/view/250px-Dugesia_subtentaculata.jpg http://users.rcn.com/jkimball.ma.ultranet/BiologyPages/D/DugesiaRegeneration004.jpg

3 G.Tigrina & the Hox genes The Hox genes comprise a homeobox in the homeotic gene complex (HOM-C). They are involved in the anteroposterior axial patterning of animal embryos and relay positional identity along this axis for regeneration in platyhelminthes. Dthox genes regulate the anterior positioning of blastemas. When Dthox expression is prematurely terminated, the cells seem to no longer be able to distinguish between the head and tail end of the organism. http://www.nottingham.ac.uk/biology/resources/gonzalez-estevez/images/Figure1.jpg

4 G.Tigrina & the Hox genes DThoxC contains 942 base pairs, no introns, and three internal restriction sites. The full sequence can be found at NCBI accession number: X95416 More information concerning its expression and function in G.tigrina can be found in “Planarian Hox genes: novel patterns of expression during regeneration”, (Bayascas et al.)

5 Overview of Cloning Process 1) Extract DNA using methodology from Balavoine et Telford, 1995. 2) Amplify entire DthoxC gene using polymerase chain reaction (PCR) and primers without BioBrick extensions. Check nucleotide sequence for matching DthoxC gene. 3) Remove internal restriction sites (EcoRI) using site-directed mutagenesis. Two of the three sites are only 18 base pairs apart and will be removed with two nucleotide adjustments on one primer. Thus the gene will be fragmented into three segments, each of which must be amplified via PCR. 4) The three amplified gene fragments will then be inserted into pGEM-T vectors and recombined via ligation. 5) The pGEM-T vectors will be placed into E.coli, amplified, and sequenced to determine if the gene fragments properly recombined and the restriction sites were removed. 6) Enzymatically remove recombined gene from pGEM-T vector. Next, the BioBrick extensions will be tagged onto the DthoxC gene primers and amplified for placement into BioBrick-compatible protein expression vectors. This will be placed into E.coli and cloned, sequenced, and tested via SDS page for expression.

6 1) Extract DNA using methodology from Balavoine et Telford, 1995. Planarians will be starved for 1 week (group A) and 2 weeks (group B), cut along the medial-lateral axis, and placed in darkness overnight. Buffer and proteinase K will then be added to the tissue samples and allowed to lyse overnight. The DNA sample will be purified before PCR.

7 2) Amplify entire DthoxC gene using polymerase chain reaction (PCR) and primers without BioBrick extensions. 2) Amplify entire DthoxC gene using polymerase chain reaction (PCR) and primers without BioBrick extensions. Primers: 5'-ATG CAT GTC GAT CCT AAC GT-3' 5'-CTC GCA GCA GTA CAA TTA G-3' http://i53.tinypic.com/rlypi0.jpg

8 2) Amplify entire DthoxC gene using polymerase chain reaction (PCR) and primers without BioBrick extensions. 2) Amplify entire DthoxC gene using polymerase chain reaction (PCR) and primers without BioBrick extensions. Primers: 5'-ATG CAT GTC GAT CCT AAC GT-3' ^ The forward primer LENGTH: 20 bp GC CONTENT: 45.0 % MELT TEMP: 54.0 ºC Hairpin ∆G (kcal.mol-1): -0.12 http://www.idtdna.com/Scitools/Applications/UNAFold/Extras.ashx?img=0dkbsv2kwrtqehzj2f4dfq2n_1 05549P_1/0dkbsv2kwrtqehzj2f4dfq2n_105549P_1_1_thm.jpg&cdnblocker=true

9 2) Amplify entire DthoxC gene using polymerase chain reaction (PCR) and primers without BioBrick extensions. 2) Amplify entire DthoxC gene using polymerase chain reaction (PCR) and primers without BioBrick extensions. Primers: 5'-CTA ATT GTA CTG CTG CGA GA-3' ^ The reverse primer LENGTH:20 bp GC CONTENT:45.0 % MELT TEMP:52.1 ºC Hairpins ∆G (kcal.mol-1):0.390.77 0.450.98 http://www.idtdna.com/analyzer/applications/oligoanalyzer/

10 3) Remove internal restriction sites (EcoRI) using site-directed mutagenesis. 3) Remove internal restriction sites (EcoRI) using site-directed mutagenesis. 5’ – atgcatgtcg atcctaacgt tccaaatcca ctgcaaaatt cccctagtaa acttctgtcc … 5’ – atgcatgtcg atcctaacgt  … atcaattaga gctagtgaaa acctacaata tctcgcagca gtacaattag – 3’ <– agagcgtcgt catgttaatc – 3’ Ordered as: 5’ – ctaattgtac tgctgcgaga – 3’ 2 nd set of primers with the BioBrick extensions: BioBrick prefix: gaattcgcggccgcttctag BioBrick suffix: tactagtagcggccgctgcag

11 3) Remove internal restriction sites (EcoRI) using site-directed mutagenesis. 3) Remove internal restriction sites (EcoRI) using site-directed mutagenesis. “Two of the three sites are only 18 base pairs apart and will be removed with two nucleotide adjustments on one primer.”

12 3) Remove internal restriction sites (EcoRI) using site-directed mutagenesis. 3) Remove internal restriction sites (EcoRI) using site-directed mutagenesis. “…Thus the gene will be fragmented into three segments, each of which must be amplified via PCR.” http://tools.neb.com/NEBcutter2/showdig.php?name=3e75c6dd-

13 4) The three amplified gene fragments will then be inserted into pGEM-T vectors and recombined via ligation. 4) The three amplified gene fragments will then be inserted into pGEM-T vectors and recombined via ligation. https://www.lablife.org/g?a=seqa&m=draw_circular_map&id=vdb_g2.48w4wHQFn40rkTg94kOG0Hue Jzk-_sequence_e6f4465c63819993d305510f9ed3878baddb8f37_10&mtime=1271612854

14 5) The pGEM-T vectors will be placed into E.coli, amplified, and sequenced to determine if the gene fragments properly recombined and the restriction sites were removed. https://www.lablife.org/g?a=seqa&m=draw_circular_map&id=vdb_g2.48w4wHQFn40rkTg94kOG0HueJzk- _sequence_e6f4465c63819993d305510f9ed3878baddb8f37_10&mtime=1271612854 http://www.easterndrafting.ca/includes/imgs/process/arrow.jpg http://upload.wikimedia.org/wikipedia/commons/6/68/Cell_Culture_in_a_tiny_Petri_dish.jpg

15 6) Next, the BioBrick extensions will be tagged onto the DthoxC gene primers and amplified for placement into BioBrick-compatible protein expression vectors. http://www.biopellet.net/sitebuilder/images/good2-312x302.jpg http://partsregistry.org/wiki/images/thumb/c/c6/BioBrickexpressionvector.png/400px- BioBrickexpressionvector.png

16 6) Next, the BioBrick extensions will be tagged onto the DthoxC gene primers and amplified for placement into BioBrick-compatible protein expression vectors. The (Strong) Promoters: R0011+B0034 (IPTG-inducible promoter R0011 w/ strong RBS B0034) Part:BBa_K320002 (constitutive) Part:BBa_K137029 (constitutive) http://partsregistry.org/wiki/images/thumb/c/c6/BioBrickexpressionvector.png/400px- BioBrickexpressionvector.png

17 This vector will be placed into E.coli and cloned, sequenced, and tested via SDS page for expression. SDS-page 1) Functionality testing not an option for regenerative gene in E.coli, so a sodium dodecyl sulfate-polyacrylamide gel electrophoresis will be performed to check expression.

18 This vector will be placed into E.coli and cloned, sequenced, and tested via SDS page for expression. SDS-page 2) In order for this test to be super-effective, especially strong promoters were sought in the Registry of Standard Biological Parts. The (Strong) Promoters: R0011+B0034 R0011+B0034 Part:BBa_K320002, Part:BBa_K137029

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