Project description:We report RNA sequencing data from the Achilles, patellar, supraspinatus, and forepaw flexor tendons of adult male mice in the C57Bl/6 background.

Project description:We have compared the gene expression profile of post-natal 1 day and 7 day rat Achilles tendons. Post-natal 1 day and 7 day rat Achilles tendons were collected. Each sample contains at least two individuals. Total RNA was extracted and fragmented biotin-tagged cRNA was hybridized to Rat Genome 230 2.0 Array.

Project description:We have compared the gene expression profile of post-natal 1 day and 7 day rat Achilles tendons.

Project description:Microarray of exercised (degenerated) rat supraspinatus versus non-exercised (normal) rats were subjected to exercise that consisted of running on a 10˚ decline at 17m/min for 1 hour per day, 5 days per week. This regimen equates to approximately 7500 strides per day. After four weeks of running, rats were sacrificed by CO2 inhalation and both supraspinatus tendons were collected. 12 non-exercised rats were used as controls.

Project description:Regional transcriptomics and mechanical properties of rat Achilles tendons

Project description:Normal young adult Sprague Dawley rats (male)

Project description:We report RNA sequencing data from the plantaris tendons of 3-month old Sprague Dawley rats that were treated with vehicle or GSK2894631A to inhibit the HPGDS enzyme. Rats underwent a bilateral plantaris tendon tear followed by immediate repair, and samples were obtained either 7 or 21 days after surgical intervention.

Project description:Tendon is a highly aligned connective tissue, in which the macro-structure consists of collagen-rich fascicles surrounded by interfascicular matrix (IFM). In a series of recent studies in equine tissue, we have demonstrated specialisation of tendon composition, structure and mechanics to achieve the tendon’s functional requirements, specifically reporting extensive specialisation of the IFM region in the energy storing superficial digital flexor tendon. We have also demonstrated loss of functional specialisms with ageing, leading to a hypothesised new paradigm for tendinopathy, focused on the importance of the IFM. However, to date, there have been no studies focused on structure-function specialisation or the IFM in functionally distinct human tendons. Here, we compare the positional anterior tibialis tendon and energy storing Achilles tendon, performing a detailed analysis of the composition and mechanical properties of both fascicle and IFM regions, to test the hypothesis that the IFM in the energy storing Achilles tendon has specialised composition and mechanical properties, and that these specialisations are lost with ageing. We demonstrate that the IFM is specialised in the energy storing Achilles tendon, with greater elasticity and fatigue resistance than in the positional anterior tibialis tendon. While there were few age-related alterations in mechanics, we did identify age-related alterations in the IFM proteome of the Achilles tendon specifically, which is predicted to be regulated by TGF-beta signalling and may be responsible for the trend towards decreased fatigue resistance observed in the Achilles IFM with ageing.

Project description:Wild-type Sprague Dawley Rats sequencing data

Project description:Sprague Dawley rats rendered hypothyroid with 22 days of MMI treatment with half the receiving T3 injection on day 21. Rats killed 24h later and hypothalamic tissue recovered.