Team:Edinburgh/AssemblyContent

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-'''Note: the contents of this page are currently at [[Team:Edinburgh/AssemblyContent]]... that's the page to edit.'''
+#redirect [[Team:Edinburgh/Assembly]]
-It may be necessary to plan in detail how stuff is going to be assembled into the final DNA products...
-The setup for our two systems are as follows:
-* '''Phage display''': Promoter-RBS-Leader-Enzyme-pVIII
-* '''Cell display''': Promoter-RBS-INP-Enzyme
-Some notes from Chris:
-# Check the annealing temperature of the portion without the non-complementary tail (as this is the only part that will anneal during the first round).
-# Check preexisting BioBricks for BglII sites.
-# We will have RFC10 reverse primers for the cellulases.
-# It may not be necessary to have two different forward primers with and without start codon, since the start codon will just be interpreted as a methionine.
-# It may not be necessary to have reverse primers with and without stop codons, as the stop codon can be supplied by the spacer.
-==Primers actually made==
-===malS (amylase)===
-''malS'' ([http://www.ncbi.nlm.nih.gov/nuccore/48994873?from=3735520&to=3737550&report=gbwithparts sequence]) is an amylase gene from ''E. coli''. It seems to be periplasmic, and for whatever reason does not cause noticable starch degradation, whether because of its location or its expression levels.
-Using this as a test system would involve comparing the starch-degrading activity of the gene by itself, as compared to the relevant fusions.
-The actual primers ordered are as follows:
-* '''EcMalSf1''': ACT AGATCT gaa atc gca gca ata agg act c
-** Forward; adds BglII site; starts upstream of gene to catch RBS ([http://heptamer.tamu.edu/cgi-bin/gb2/gbrowse/MG1655/?plugin=FastaDumper;q=NC_000913%3A3735491..3737550;plugin_action=Go see here]).
-* '''EcMalSf2''': ACT AGATCT atg aaa ctc gcc gcc tgt ttt c
-** Forward; adds BglII site; starts at start codon.
-* '''EcMalSr1''': ACT ACTAGT A TTA tta ctg ttg ccc tgc cca g
-** Reverse; adds SpeI site; RFC10 compliant; has double stop codon.
-* '''EcMalSr2''': ACT ACTAGT ACC ctg ttg ccc tgc cca gac g
-** Reverse; adds SpeI site; RFC23 and BioSandwich compliant; no stop codons, adds a glycine.
-===bglX (B-glucosidase)===
-''bglX'' ([http://www.ncbi.nlm.nih.gov/nuccore/48994873?from=2217714&to=2220011&report=gbwithparts sequence, but gene is on reverse strand]) is a periplasmic &Beta;-glucosidase from ''E. coli''. Again, it seems to not be expressed very strongly.
-Note presence of PstI site in sequence; we could insert via BglII and SpeI. It would then be necessary to use [http://www.openwetware.org/wiki/Cfrench:MABEL MABEL] to remove the PstI site. Still, all of this may be unnecessary if <partinfo>BBa_K392008</partinfo> or something similar works...
-The actual primers ordered are as follows:
-* '''EcBglXf1''': ACT AGATCT gcc acg tcg ggc aac
-** Forward; adds BglII site; starts upstream of gene to catch RBS.
-* '''EcBglXf2''': ACT AGATCT atg aaa tgg cta tgt tca gta gg
-** Forward; adds BglII site; starts at start codon.
-* '''EcBglXr1''': ACT ACTAGT A TTA tta cag caa ctc aaa ctc gcc
-** Reverse; RFC10 compliant; has double stop codon.
-* '''EcBglXr2''': ACT ACTAGT ACC cag caa ctc aaa ctc gcc ttt c
-** Reverse; adds SpeI site; RFC23 and BioSandwich compliant; no stop codons, adds a glycine.
-===pVIII leader sequence===
-The pVIII sequence is [[Team:Edinburgh/Sequences#pVIII|here]].
-This part is intended to have '''stuff fused at its 3' (C-terminal) end'''.
-* '''p8f_cfus''': ACT AGATCT atg aaa aag tct tta gtc c
-** Forward, adds BglII site, start codon present.
-* '''p8r_cfus''': AAA ACTAGT ACC agc gaa aga cag cat cgg
-** Reverse, adds a glycine, adds SpeI.
-===pVIII mature protein===
-The pVIII sequence is [[Team:Edinburgh/Sequences#pVIII|here]].
-This part is intended to have '''stuff fused at its 5' (N-terminal) end'''.
-* '''p8f_nfus''': ACT AGATCT gct gag ggt gac gat ccc gc
-** Forward, adds BglII site.
-* '''p8r_nfus''': AAA ACTAGT A tca gct tgc ttt cga ggt g
-** Reverse, has stop codon, adds standard RFC10 suffix.
-===BBa_K118022 / BBa_K392007 (Exoglucanase)===
-We already have reverse primers that ought to be suitable for cell display, though not phage display.
-This primer deletes the signal peptide.
-* '''cexf_nosig''': ACT AGATCT ATG gcg acc acg ctc aag gag gc
-** Forward, adds BglII site, adds start codon, starts at a.a. 43.
-===BBa_K392008 (B-glucosidase)===
-We already have reverse primers that ought to be suitable for cell display, though not phage display.
-This primer is slightly misnamed as there is no signal peptide predicted for this; the primer just starts at the CDS start.
-* '''Cfbgluf_nosig''': ACT AGATCT ATG ggc gac cgg ttc cag cag gc
-** Forward, adds BglII site. Start codon.
-===Xylose isomerase===
-From the ''[http://www.ncbi.nlm.nih.gov/nuccore/148278?from=213&to=1535&report=gbwithparts xylA]'' gene of ''E. coli''. Designed for fusion to INP or expression on its own. We probably won't try for phage.
-* '''EcxylAf1''': ACT AGATCT atg caa gcc tat ttt gac c
-** Forward, adds BglII site, has start codon.
-* '''EcxylAr1''': AAA ACTAGT A TTA tta ttt gtc gaa cag ata atg g
-** Reverse, adds 2nd stop codon, adds standard suffix.
-==Primers in planning (amylase, mature peptide only)==
-''malS'' is a periplasmic gene which has a signal peptide. In order to fuse it to INP, it may be necessary to isolate the mature protein sequence, which is [http://www.ncbi.nlm.nih.gov/protein/CAA41740.1 claimed] to be amino acids 18-676; i.e. we would need to delete the first 51 bases in the DNA.
-* ACT AGATCT gcc agc tgg act tct ccg gg
-** Forward, adds SglII site.
-==Primers in planning (bglX, mature peptide only)==
-''bglX'' is a periplasmic gene which has a signal peptide. In order to fuse it to INP, it may be necessary to isolate the mature protein sequence, which SignalP predicts to be amino acids 21 onwards; i.e. we would need to delete the first 60 coding bases in the DNA.
-* ACT AGATCT gat gat tta ttc ggc aac c
-** Forward, adds BglII site.
-==Primers in planning (cellulases)==
-The enzymes of interest will need start codons so they can be used as controls for assays, where we ask: do they work without the carrier?
-When part of a display system, the different products will '''either be fused only at their 5' end (cell display), or at both ends (phage display)'''.
-===BBa_K118023 / BBa_K392006 (Endoglucanase)===
-'''This part contains a BglII site, so that will first have to be dealt with, before we can use these primers.'''
-Note: SignalP predicts a cleavage site between amino acids 31 and 32. The following primers fix that problem:
-* ACT AGATCT ATG GCA CCA GGA tgc cgc gtc gac tac gcc gtc '''[Warning: strong secondary structure]'''
-** Forward, adds BglII site, adds start codon, starts at a.a. 32. but changes first three codons to avoid ''very strong'' primer secondary structure.
-* AAA ACTAGT ACC cca cct ggc gtt gcg cg
-** Reverse, no stop codon; adds a glycine, adds SpeI.
-===MABEL primers to destroy BglII site, above===
-* atc tcg cag cgg ctg gg
-** Forward, perfect correspondance to sequence
-* ttg ctg gcc gta cgc ctt g
-** Reverse, replaces CAG (glutamine) with CAA (glutamine).
-===BBa_K118022 / BBa_K392007 (Exoglucanase)===
-* AAA ACTAGT AGA gcc gac cgt gca ggg cgt gc
-** Reverse, no stop codon; adds a serine, adds SpeI.
-** (I was unable to add the usual glycine due to very strong secondary structure arising.)
-===BBa_K392008 (B-glucosidase)===
-* AAA ACTAGT ACC ggg ctg gta ggt cgc ggc g
-** Reverse, no stop codon; adds a glycine, adds SpeI.
-==Primers in planning (cell display)==
-===BBa_K265008 (INP)===
-Continuing on the assumption of '''BioSandwich''' assembly. Ice Nucleation Protein will be present at the start of the coding fusion. A promoter and RBS will have to be added upstream.
-This part will have '''stuff fused at its 3' (C-terminal) end'''.
-* ACT AGATCT atg acc ctg gat aaa gcg c
-** Forward, adds BglII site. Start codon is present.
-* AAA ACTAGT ACC ttt cac ttc gat cca atc
-** Reverse, no stop codon; adds a glycine, adds SpeI.
-==Primers in planning (biorefinery)==
-These things may be produced on their own (as a control) or fused to INP. We probably won't bother with fusion to phage? In any case, the unfused versions used as controls will need start codons.
-===Aldose reductase===
-From the [[Team:Edinburgh/Biorefineries#Sorbitol|reverse complement]] of [http://www.ncbi.nlm.nih.gov/nuccore/15594346?from=538328&to=539275&report=gbwithparts this sequence] which we can get from [http://www.straininfo.net/strains/149324/browser DSM 4680]. Might be problems with low GC content of gene. Some alternative strains that might be used instead:
-* [http://www.ncbi.nlm.nih.gov/nuccore/159162017?from=1026949&to=1027815&report=gbwithparts ''Lactobacillus acidophilus'' NCFM]
-* [http://www.ncbi.nlm.nih.gov/nuccore/209953764?from=197281&to=198111&report=gbwithparts ''Providencia alcalifaciens'' DSM 30120] (but BLAST says this is probably a 2,5-diketo-D-gluconate reductase)
-* [http://www.ncbi.nlm.nih.gov/nuccore/224798838?from=118139&to=119005&report=gbwithparts ''Lactobacillus acidophilus'' ATCC 4796 == LMG 11470]
-Primers for DSM 4680:
-* ACT AGATCT gtg aat aat ctt aaa gac
-** Forward, adds BglII site, has start codon (gtg).
-* AAA ACTAGT A TTA tta aat ttt ttt gtt aaa ta
-** Reverse, adds 2nd stop codon, adds standard suffix.