ShabihkhaniM, LuceyGM, WeiB, et al.The procurement, storage, and quality assurance of frozen blood and tissue biospecimens in pathology, biorepository, and biobank settings. Clin Biochem, 2014; 47:258–266.
2.
MullerR, BetsouF, BarnesMG, et al.Preservation of biospecimens at ambient temperature: Special focus on nucleic acids and opportunities for the biobanking community. Biopreserv Biobank, 2016; 14:89–98.
3.
BonnetJ, ColotteM, CoudyD, et al.Chain and conformation stability of solid-state DNA: Implications for room temperature storage. Nucleic Acids Res, 2010; 38:1531–1546.
4.
WashetineK, Kara-BorniM, HeekeS, et al.Ensuring the safety and security of frozen lung cancer tissue collections through the encapsulation of dried DNA. Cancers (Basel), 2018; 10:195.
5.
LiuX, LiQ, WangX, et al.Evaluation of DNA/RNAshells for room temperature nucleic acids storage. Biopreserv Biobank, 2015; 13:49–55.
6.
ClermontD, SantoniS, SakerS, GomardM, GardaisE, BizetC. Assessment of DNA encapsulation, a new room-temperature DNA storage method. Biopreserv Biobank, 2014; 12:176–183.
7.
HeekeS, HofmanV, Long-MiraE, et al.Use of the ion PGM and the genereader NGS systems in daily routine practice for advanced lung adenocarcinoma patients: A practical point of view reporting a comparative study and assessment of 90 patients. Cancers (Basel), 2018; 10.
8.
ClermontD, MotreffL, PassetV, FernandezJ-C, BizetC, BrisseS. Multilocus sequence analysis of the genus Citrobacter and description of Citrobacter pasteurii sp. nov. Int J Syst Evol Microbiol, 2015; 65:1486–1490.
9.
PécuchetN, RozenholcY, ZontaE, et al.Analysis of base-position error rate of next-generation sequencing to detect tumor mutations in circulating DNA. Clin Chem, 2016; 62:1492–1503.
10.
SakuraiK, KawasakiH. Genetic variation during long-term preservation of bacteria in public culture collections. Int J Syst Evol Microbiol, 2018; 68:1815–1821.
