000	02234cam  2200361zi 4500
001	9.889564
003	CaOODSP
005	20221107172326
006	m     o  d f
007	cr |n|||||||||
008	200721t20182017oncd    ob   f000 0 eng d
040	|aCaOODSP|beng|erda|cCaOODSP
043	|an-cn---
086	1 |aD68-10/134-2018E-PDF
100	1 |aZhang, Jing, |eauthor.
245	10|aHuman hair follicle transcriptome profiling : |ba minimally invasive tool to assess molecular adaptations upon low-volume, high-intensity interval training / |cJing Zhang [and five others].
264	1|a[Toronto] : |bDefence Research and Development Canada = Recherche et développement pour la défense Canada, |c2018.
264	4|c©2017
300	|a1 online resource (17 pages) : |bcharts.
336	|atext|btxt|2rdacontent
337	|acomputer|bc|2rdamedia
338	|aonline resource|bcr|2rdacarrier
490	1 |aExternal literature (P) ; |vDRDC-RDDC-2018-P134
500	|a"Can unclassified."
500	|a"May 2018."
504	|aIncludes bibliographical references (pages 15-17).
520	|a"High-intensity interval training (HIIT) has become a popular fitness training approach under both civilian and military settings. Consisting of brief and intense exercise intervals, HIIT requires less time commitment yet is able to produce the consistent targeted physical adaptations as conventional endurance training. To effectively characterize and monitor HIIT-induced cellular and molecular responses, a highly accessible yet comprehensive biomarker discovery source is desirable. Both gene differential expression (DE) and gene set (GS) analyses were conducted using hair follicle transcriptome established from pre and post exercise subjects upon a 10-day HIIT program by RNA-Seq"--Abstract, page 1.
650	0|aHair follicles|xResearch.
650	0|aGene expression.
650	0|aPhysical education and training.
710	2 |aDefence R&D Canada. |bToronto Research Centre, |eissuing body
830	#0|aExternal literature (P) (Defence R&D Canada)|vDRDC-RDDC-2018-P134.|w(CaOODSP)9.854437
856	40|qPDF|s8.64 MB|uhttps://publications.gc.ca/collections/collection_2020/rddc-drdc/D68-10-134-2018-eng.pdf