Team:Dundee/Part Collection
Part: BBa_K1590000 (hHBA)
FluID - Blood Detection
A synthetic coding sequence for Human haemoglobin A. The protein forms part of a tetramer consisting of two alpha-chains and two beta-chains (see BBa_K1590001 for haemoglobin B). The sequence was codon optimized for expression in an Escherichia coli chassis.
Part: BBa_K1590001 (hHBB)
FluID - Blood Detection
A synthetic coding sequence for Human haemoglobin A. The protein forms part of a tetramer consisting of two alpha-chains and two beta-chains (see BBa_K1590000 for haemoglobin A). The sequence was codon optimized for expression in an Escherichia coli chassis.
Part: BBa_K1590002 (hHBN)
FluID - Blood Detection
A synthetic coding sequence for Human haptoglobin. Haptoglobin is a human protein with high affinity for haemoglobin. This biobrick is a synthetic gene optimized for expression in E. coli. In blood plasma, haptoglobin binds free haemoglobin released from red blood cells.
Part: BBa_K1590003 (Pchr)
Chromate Detection
This promoter is found upstream of the chrBACF - operon in Ochrobactrum tritici 5bvl1, located in the transposable element TnOtChr of 7189 bp length. Pchr is suspected to be inducible by chromate via the chromate-responsive repressor ChrB.
Part: BBa_K1590004 (ChrB)
Chromate Detection
The protein encoded by this sequence is a putative chromate-responsive repressor of Pchr (BBa_K1590003). This sequence is found downstream of Pchr in the chrBACF - operon in Ochrobactrum tritici 5bvl1, located in the transposable element TnOtChr. ChrB is suspected to inhibit the otherwise constitutive promoter Pchr in the absence of Cr(VI) by binding to an imperfect inverted repeat sequence located upstream of the initial ATG codon. Cr(VI) was expected to lift this repression, leading to the expression of the genes downstream of Pchr.
Part: BBa_K1590006 (LSS)
Fingerprint Aging
A synthetic coding sequence for Human Lanosterol Synthase. .Lanosterol synthase (LSS) an oxidosqualene cyclase (OSC) enzyme that specifically binds to squalene epoxide (2,3- oxidosqualene), which is present in fingerprints. Our modelling showed us that squalene epoxide is the compound with the most distinct degradation pattern in fingerprints, and it was hence selected as an appropriate target for approximating the age of a fingerprint.
Part: BBa_K1590007 (Obp2A)
FluID - Nasal Mucus Detection
A synthetic coding sequence for Human Odourant Binding Protein 2A. Human Odorant Binding Protein 2A is a 155 amino acid (excluding the signal peptide) lipocalin of relatively low molecular weight (19318 Daltons). Structurally it forms an 8 sheet beta barrel flanked by a C-terminal alpha helix that together forms an internal hydrophobic pore known as a calix. It is secreted by the olfactory epithelial cells of the nose where it lies in high abundance within nasal mucus. Its primary function in the human body is believed to be in the transport of hydrophobic odorant proteins across the otherwise impenetrable aqueous mucus layer to the olfactory receptors of the nose. Due to its high specificity and abundance within nasal mucus, OBP2A was selected as the protein for use in nasal mucus detection.
Part: BBa_K1590008 (LbpA)
FluID - Saliva Detection
Coding sequence for Lactoferrin Binding Protein A of Neisseria Meningitidis. This protein sequesters Iron for the host from Lactoferrin. A major component found in saliva is a free iron sequestering compound known as lactoferrin, a protein involved in the innate immune system. Neisseria meningitidis is a gram-negative bacterium with an iron-binding outer membrane protein called lactoferrin binding protein A (LbpA). N. meningitidis uses this LbpA to extract iron from the host lactoferrin under pathogenic conditions to allow for the bacterium to perform essential cellular metabolism such as energy generation and DNA replication.
Part: BBa_K1590009 (PotD)
FluID - Semen Detection
Escherichia coli PotD sequence, encoding Spermidine/putrescine-binding periplasmic protein. For semen detection our main target ligand is the polyamine spermidine which is found in relatively high concentrations in seminal fluid (5-15 mM). Spermidine is made from another polyamine called putrescine and is the precursor of spermine. Regulation of polyamine synthesis, degradation and transport is tightly controlled in bacteria. In E. coli, two of three identified transport systems are ABC transporters composed of a periplasmic binding protein, a pair of transmembrane proteins and a membrane protein possessing ATPase catalytic activity. Out of these three components, we were interested in investigating the periplasmic binding protein PotD which specifically binds spermidine. The fact that this protein is responsible for transportation of spermidine and lacking in enzymatic activity meant that it was an ideal candidate for use in FluID for semen detection
Part: BBa_K1590010 (Sbp)
FluID - Semen Detection
Synthetic coding sequence for Murine Spermine Binding Protein For semen detection our main target ligand is the polyamine spermidine which is found in relatively high concentrations in seminal fluid (5-15 mM). Spermidine is made from another polyamine called putrescine and is the precursor of spermine. Regulation of polyamine synthesis, degradation and transport is tightly controlled in bacteria. In E. coli, two of three identified transport systems are ABC transporters composed of a periplasmic binding protein, a pair of transmembrane proteins and a membrane protein possessing ATPase catalytic activity. Out of these three components, we were interested in investigating the periplasmic binding protein PotD which specifically binds spermidine. However, we made initial attempts in characterising SBP as well, and submitted the biobrick accordingly.