get a trian
O, NO!
get a trian
O, NO!
https://www.nbcboston.com/news/local/army-holds-on-with-goal-line-stand-in-final-seconds-beats-navy-17-11/3215125/
Army holds on with goal-line stand in final seconds, beats Navy 17-11
2 days ago … Army linebacker Kalib Fortner scored on a fourth-quarter strip sack and then stuffed quarterback Tai Lavatai six inches from the goal line …
ensign assail em'
>Democracy is mob rule.
NONAME?
the faces
slap that ass and ride the wave in.. -the homies in teh hood
ain't about raskin (last picrel)
Review
Naturwissenschaften
. 2003 May;90(5):193-211.
doi: 10.1007/s00114-003-0417-4. Epub 2003 Apr 26.
Hox in hair growth and development
Alexander Awgulewitsch 1
Affiliations
PMID: 12743702 DOI: 10.1007/s00114-003-0417-4
Abstract
The evolutionarily conserved Hox gene family of transcriptional regulators has originally been known for specifying positional identities along the longitudinal body axis of bilateral metazoans, including mouse and man. It is believed that subsequent to this archaic role, subsets of Hox genes have been co-opted for patterning functions in phylogenetically more recent structures, such as limbs and epithelial appendages. Among these, the hair follicle is of particular interest, as it is the only organ undergoing cyclical phases of regression and regeneration during the entire life span of an organism. Furthermore, the hair follicle is increasingly capturing the attention of developmental geneticists, as this abundantly available miniature organ mimics key aspects of embryonic patterning and, in addition, presents a model for studying organ renewal. The first Hox gene shown to play a universal role in hair follicle development is Hoxc13, as both Hoxc13-deficient and overexpressing mice exhibit severe hair growth and patterning defects. Differential gene expression analyses in the skin of these mutants, as well as in vitro DNA binding studies performed with potential targets for HOXC13 transcriptional regulation in human hair, identified genes encoding hair-specific keratins and keratin-associated proteins (KAPs) as major groups of presumptive Hoxc13 downstream effectors in the control of hair growth. The Hoxc13 mutant might thus serve as a paradigm for studying hair-specific roles of Hoxc13 and other members of this gene family, whose distinct spatio-temporally restricted expression patterns during hair development and cycling suggest discrete functions in follicular patterning and hair cycle control. The main conclusion from a discussion of these potential roles vis-à-vis current expression data in mouse and man, and from the perspective of the results obtained with the Hoxc13 transgenic models, is that members of the Hox family are likely to fulfill essential roles of great functional diversity in hair that require complex transcriptional control mechanisms to ensure proper spatio-temporal patterns of Hox gene expression at homeostatic levels.
https://pubmed.ncbi.nlm.nih.gov/12743702/
Forever Jung!
caveat: not what he says, but what he does
HB2U!