Synthetic molecular tags for supply chain tracking

The invention claimed is: 1 . A method for tracking movement of an item through a supply chain comprising: adding a first synthetic molecular tag to the item at a first site in a supply chain; adding a second synthetic molecular tag with a different sequence than the first synthetic molecular tag to the item at a second site in the supply chain, wherein the first synthetic molecular tag and the second synthetic molecular tag are polynucleotides; collecting the first synthetic molecular tag and the second synthetic molecular tag from the item; detecting the first synthetic molecular tag and the second synthetic molecular tag collected from the item to generate a first tag sequence and a second tag sequence, wherein detecting the first synthetic molecular tag and the second synthetic molecular tag comprises a first toehold-mediated strand-displacement reaction with the first synthetic molecular tag and a second toehold-mediated strand-displacement reaction with the second synthetic molecular tag; comparing the first tag sequence and the second tag sequence to an electronic record containing a first reference sequence associated with a description of the first site in the supply chain and a second reference sequence associated with a description of the second site in the supply chain; and determining that the item was at the first site in the supply chain and at the second site in the supply chain based on the electronic record. 2 . The method of claim 1 , further comprising: synthesizing a plurality of copies of the first synthetic molecular tag and a plurality of copies of the second synthetic molecular tag; registering, in the electronic record, an association between at least a portion of a reference sequence of the first synthetic molecular tag and a description of the first site in the supply chain and an association between at least a portion of the reference sequence of the second synthetic molecular tag and a description of the second site in the supply chain; and distributing the plurality of copies of the first synthetic molecular tag to the first site in the supply chain and the plurality of copies of the second synthetic molecular tag to the second site in the supply chain. 3 . The method of claim 1 , wherein the first synthetic molecular tag and the second synthetic molecular tag comprise the same forward and reverse primer binding sites. 4 . The method of claim 1 , wherein the first tag sequence is not identical to any reference sequence contained in the electronic record and determining that the item was at the first site in the supply chain comprises: determining that the first tag sequence is more similar to the first reference sequence than to any other reference sequence in the electronic record. 5 . The method of claim 1 , wherein the first synthetic molecular tag encodes a date and further comprising determining a freshness of the item based on the date. 6 . The method of claim 1 , wherein adding the first synthetic molecular tag to the item comprises contacting a surface of the item with a liquid solution containing the first synthetic molecular tag or wherein the item is liquid and wherein adding the first synthetic molecular tag to the item comprises placing the first synthetic molecular tag in the item. 7 . The method of claim 1 , wherein the electronic record is maintained on one or more network-accessible computing devices at one or more locations physically distant from the first site and from the second site. 8 . The method of claim 1 , further comprising: displaying on a user interface of a computing device physically proximate to the item a list or map showing the first site in the supply chain and the second site in the supply chain. 9 . A method for tracking movement of an item through a supply chain comprising: synthesizing a plurality of copies of a first synthetic molecular tag and a plurality of copies of a second synthetic molecular tag, wherein the first synthetic molecular tag and the second synthetic molecular tag are polynucleotides, wherein each of the first and second synthetic molecular tags comprises a supply chain site encoding region, wherein a sequence in the supply chain site encoding region of the first synthetic molecular tag represents a first site, wherein a sequence in the supply chain site encoding region of the second synthetic molecular tag represents a second site, and wherein a difference between the supply chain site encoding region of the first synthetic molecular tag and the supply chain site encoding region of the second synthetic molecular tag is maximized by selecting sequences for the supply chain encoding regions that are as different from each other as possible for a given number of supply chain sites; registering, in an electronic record, an association between at least a portion of a first reference sequence of the first synthetic molecular tag and a description of the first site in the supply chain and an association between at least a portion of a second reference sequence of the second synthetic molecular tag and a description of the second site in the supply chain; distributing the plurality of copies of the first synthetic molecular tag to the first site in the supply chain and the plurality of copies of the second synthetic molecular tag to the second site in the supply chain; adding the first synthetic molecular tag to the item at the first site in the supply chain; adding the second synthetic molecular tag with a different sequence than the first synthetic molecular tag to the item at the second site in the supply chain; collecting the first synthetic molecular tag and the second synthetic molecular tag from the item; detecting the first synthetic molecular tag and the second synthetic molecular tag collected from the item to generate a first tag sequence and a second tag sequence, wherein detecting the first synthetic molecular tag and the second synthetic molecular tag comprises a first toehold-mediated strand-displacement reaction with the first synthetic molecular tag and a second toehold-mediated strand-displacement reaction with the second synthetic molecular tag; comparing the first tag sequence and the second tag sequence to the electronic record containing the first reference sequence associated with a description of the first site in the supply chain and the second reference sequence associated with a description of the second site in the supply chain; and determining that the item was at the first site in the supply chain and at the second site in the supply chain based on the electronic record. 10 . The method of claim 1 , wherein each of the first and second synthetic molecular tags comprises a supply chain site encoding region encoding a respective supply site, an information encoding region encoding a type of item or a date, and the first synthetic molecular tag and the second synthetic molecular tag comprise the same forward and reverse primer binding sites. 11 . The method of claim 9 , wherein each of the first and second synthetic molecular tags comprises an information encoding region encoding a type of item or a date and the first synthetic molecular tag and the second synthetic molecular tag comprise the same forward and reverse primer binding sites.