Mispriming prevention reagents

What is claimed is: 1. A mispriming prevention reagent comprising a nucleic acid molecule comprising, in 5′ to 3′ order: (i) a first condition-dependent stem region comprising a 5′ terminal covalently linked moiety and a first stem nucleic acid sequence, wherein the first stem nucleic acid sequence is at least 6 nucleotides in length and wherein the 5′ terminal covalently linked moiety comprises a cyclic or polycyclic planar moiety that does not have a bulky portion; (ii) a condition-dependent loop region comprising a loop nucleic acid sequence of at least 3 nucleotides in length; and (iii) a second condition-dependent stem region comprising a second stem nucleic acid sequence and a 3′ terminal covalently linked moiety, wherein the second stem nucleic acid sequence is at least 6 nucleotides in length and is complementary to the first stem nucleic acid sequence and wherein the 3′ terminal covalently linked moiety comprises a cyclic or polycyclic planar moiety that does not have a bulky portion, wherein the 3′ terminal covalently linked moiety is non-identical to the 5′ terminal covalently linked moiety, and wherein the 3′ terminus of the second stem region is non-extendable by a DNA polymerase, wherein the first condition-dependent stem region hybridizes to the second condition-dependent stem region in a temperature dependent manner to acquire a stem-loop hairpin conformation, wherein the mispriming prevention reagent acquires a principally stem-loop conformation at temperatures below primer annealing temperature of an amplification reaction. 2. The mispriming prevention reagent of claim 1 , wherein the loop nucleic acid sequence is a single nucleotide repeat sequence. 3. The mispriming prevention reagent of claim 2 , wherein the single nucleotide repeat sequence is a poly-cytosine sequence. 4. The mispriming prevention reagent of claim 1 wherein the loop nucleic acid sequence is between 25 and 40 nucleotides in length. 5. The mispriming prevention reagent of claim 4 , wherein the loop nucleic acid sequence is 28 nucleotides in length. 6. The mispriming prevention reagent of claim 1 , wherein the first condition-dependent stem region hybridizes to the second condition-dependent stem region with a melting temperature of between 40° C. and 71° C. 7. The mispriming prevention reagent of claim 6 , wherein the first condition-dependent stem region hybridizes to the second condition-dependent stem region with a melting temperature of between 40° C. and 55° C. 8. The mispriming prevention reagent of claim 1 , wherein the first stem nucleic acid sequence and the second stem nucleic acid sequence are no more than 14 nucleotides in length. 9. The mispriming prevention reagent of claim 1 , wherein the first stem nucleic acid sequence and the second stem nucleic acid sequence are each at least 8 nucleotides in length. 10. The mispriming prevention reagent of claim 9 , wherein the first stem nucleic acid sequence and the second stem nucleic acid sequence are each 11 nucleotides in length. 11. The mispriming prevention reagent of claim 1 , wherein the stem-loop hairpin conformation comprises a 5′ or 3′ overhang. 12. The mispriming prevention reagent of claim 1 , wherein the stem-loop hairpin conformation comprises a blunt end. 13. The mispriming prevention reagent of claim 1 , wherein: (a) the most 3′ nucleic acid of the first stem nucleic acid sequence is cytosine and the most 5′ nucleic acid of the second stem nucleic acid sequence is guanine; or (b) the most 3′ nucleic acid of the first stem nucleic acid sequence is guanine and the most 5′ nucleic acid of the second stem nucleic acid sequence is a cytosine. 14. The mispriming prevention reagent of claim 1 , wherein: (a) the most 5′ nucleic acid of the first stem nucleic acid sequence is cytosine and the most 3′ nucleic acid of the second stem nucleic acid sequence is guanine; or (b) the most 5′ nucleic acid of the first stem nucleic acid sequence is guanine and the most 3′ nucleic acid of the second stem nucleic acid sequence is a cytosine. 15. The mispriming prevention reagent of claim 1 , wherein the 5′ terminal covalently linked moiety comprises a dabcyl moiety. 16. The mispriming prevention reagent of claim 1 , wherein the 3′ terminal covalently linked moiety comprises a coumarin moiety. 17. The mispriming prevention reagent of claim 16 , wherein the coumarin moiety is selected from the group consisting of Coumarin 39, Coumarin 47 and Biosearch Blue. 18. The mispriming prevention reagent of claim 17 , wherein the coumarin moiety is Biosearch Blue. 19. The mispriming prevention reagent of claim 1 , wherein the 3′ terminal covalently linked moiety comprises a dabcyl moiety. 20. The mispriming prevention reagent of claim 1 , wherein the 5′ terminal covalently linked moiety comprises a coumarin moiety. 21. The mispriming prevention reagent of claim 20 , wherein the coumarin moiety is selected from the group consisting of Coumarin 39, Coumarin 47 and Biosearch Blue. 22. A reaction mixture comprising: (a) a first nucleic acid primer that hybridizes to a 3′ region of a target nucleic acid sequence with a first primer melting temperature; (b) a second nucleic acid primer that hybridizes to a 3′ region of the complement of the target nucleic acid sequence with a second primer melting temperature; and (c) a mispriming prevention reagent, wherein the mispriming prevention reagent comprises a nucleic acid molecule comprising, in 5′ to 3′ order: (i) a first condition-dependent stem region comprising a 5′ terminal covalently linked moiety and a first stem nucleic acid sequence, wherein the first stem nucleic acid sequence is at least 6 nucleotides in length and wherein the 5′ terminal covalently linked moiety comprises a cyclic or polycyclic planar moiety that does not have a bulky portion; (ii) a condition-dependent loop region comprising a loop nucleic acid sequence of at least 3 nucleotides in length; and (iii) a second condition-dependent stem region comprising a second stem nucleic acid sequence and a 3′ terminal covalently linked moiety, wherein the second stem nucleic acid sequence is at least 6 nucleotides in length and is complementary to the first stem nucleic acid sequence, wherein the 3′ terminal covalently linked moiety comprises a cyclic or polycyclic planar moiety that does not have a bulky portion, wherein the 3′ terminal covalently linked moiety is non-identical to the 5′ terminal covalently linked moiety, and wherein the 3′ terminus of the second condition-dependent stem region is non-extendable by a DNA polymerase, wherein the second stem region hybridizes to the first condition-dependent stem region with a stem melting temperature that is no greater than both the first primer melting temperature and the second primer melting temperature, and wherein hybridization of the first condition-dependent stem region to the second condition-dependent stem region causes the reagent to acquire a stem-loop hairpin conformation, wherein the mispriming prevention reagent acquires a principally stem-loop conformation at temperatures below primer annealing temperature(s) of an amplification reaction. 23. A kit comprising a mispriming prevention reagent of claim 1 . 24. A method of creating an amplification product comprising a target nucleic acid sequence or complement thereof, the method comprising: (a) forming a reaction mixture comprising: (i) a target nucleic acid molecule comprising the targ