TargetSp15+-NADH-depemdent+Enoyl-(acyl-carrier-protein)+reductase+(Mycobacterium+tuberculosis)

Is it a monomer or multimer as biological unit ** ? (make prediction at ** http://www.ebi.ac.uk/msd-srv/prot_int/pistart.html ): Multimer as biological unit; 4-mer
 * *Target (protein/gene name): ** NADH-dependent Enoyl-[acyl-carrier-protein] reductase
 * *NCBI Gene # or RefSeq#: ** NP_216000.1
 * *Protein ID (NP or XP #) or Wolbachia#: **
 * *Organism (including strain): ** ** Mycobacterium tuberculosis  ** // (strain ATCC 25618 / H37Rv) //
 * Etiologic Risk Group (see link below): **
 * */ Disease Information (sort of like the Intro to your Mini __Research Write__ up): **
 * Link to TDR Targets page (if present): ** ** [] **
 * Link to Gene Database page (NCBI, EuPath databases -e.g. TryTryp, PlasmoDB, etc - or PATRIC, etc.) **
 * Essentiality of this protein: **


 * Complex of proteins?: **
 * Druggable Target (list number or cite evidence from a paper/database showing druggable in another organism): ** ** Druggability index of .7 **


 * *EC#: **** 1.3.1.9 **
 * Link to BRENDA EC# page: ** ** [] **




 * Enzyme Assay information (spectrophotometric, coupled assay ?, reagents): **** []  **
 * -- -or link (or citation) to paper that contains assay information **
 * -- links to assay reagents (substrates) pages. **
 * --- List cost and quantity of substrate reagents, supplier, and catalog # **

-- PDB # or closest PDB entry if using homology model: -- For Homology Model option: Show pairwise alignment of your BLASTP search in NCBI against the PDB Query Coverage: Max % Identities: % Positives Chain used for homology:
 * Structure (PDB or Homology model) **


 * Current Inhibitors: **
 * Expression Information (has it been expressed in bacterial cells): **
 * Purification Method : **
 * Image of protein (PyMol with features delineated and shown separately): **
 * *Amino Acid Sequence (paste as text only - not as screenshot or as 'code'): **
 * *length of your protein in Amino Acids **
 * Molecular Weight of your protein in kiloDaltons using the [|Expasy ProtParam]website **
 * Molar Extinction coefficient of your protein at 280 nm wavelength: **
 * TMpred graph Image ** ( http://www.ch.embnet.org/software/TMPRED_form.html ). Input your amino acid sequence to it.
 * *CDS Gene Sequence (paste as text only): **
 * *GC% Content for gene: **
 * *CDS Gene Sequence (codon optimized) - copy from output of Primer Design Protocol (paste as text only): **
 * *GC% Content for gene (codon optimized): **

Do Not Need this info for Spring (but still copy these lines to your Target page for now) -- Ask a mentor, Dr. B, or a fellow researcher -how to link a GDocs file if you are not sure how to.
 * Primer design results for pNIC-Bsa4 cloning (list seqeunces of all of your ~40 nt long primers): **
 * ( link to DNA Works output text file - ** that should be saved in your Google Docs folder after you did the primer design protocol)

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 * Primer design results for 'tail' primers (this is just 2 sequences): **