Clubs in the Premier League made a combined loss of UK£599.5 million (US$760 million) in 2018/19, according to a report by business analysts Vysyble, reports, www.sportspromedia.com/. Loading… read also:EPL clubs lost £600m in season before virus, says report Those losses were recorded prior to the coronavirus pandemic, which is set to have a significant financial impact on Premier League clubs even if they are able to complete the 2019/20 season. FacebookTwitterWhatsAppEmail分享 Promoted Content8 Shows You Didn’t Want To Watch At The EndThe Very Last Bitcoin Will Be Mined Around 2140. Read More7 Famous And Incredibly Unique Places In ThailandTop 7 Best Car Manufacturers Of All Time5 Of The World’s Most Unique Theme Parks9 Facts You Should Know Before Getting A Tattoo7 Things That Actually Ruin Your Phone8 Superfoods For Growing Hair Back And Stimulating Its Growth6 Ridiculous Health Myths That Are Actually TrueThis Guy Photoshopped Himself Into Celeb Pics And It’s HystericalBirds Enjoy Living In A Gallery Space Created For Them2020 Tattoo Trends: Here’s What You’ll See This Year Despite Premier League clubs bringing in record revenues, exceeding UK£5 billion (US$6.3 billion) in total that season, the report reveals that since 2009 only in two campaigns – 2016/17 and 2017/18 – has the league posted a collective economic profit.Advertisement
Brittle stars are included within a whole range of species, which contribute to knowledge in the medically important area of tissue regeneration. All brittle stars regenerate lose limbs, but the rate at which this occurs is highly variable and species-specific. One of the slowest rates of arm regeneration reported so far is that of the Antarctic Ophionotus victoriae. Additionally, O. victoriae also has an unusual delay in the onset of regeneration of about 5 months. Both processes are of interest for the areas of regeneration biology and adaptation to cold environments. One method of understanding the details of regeneration events in brittle stars is to characterise the genes involved. In the largest transcriptome study of any ophiuroid to date, we describe the results of mRNA pyrosequencing from pooled samples of regenerating arms of O. victoriae. The sequencing reads resulted in 18,000 assembled contiguous sequences of which 19% were putatively annotated by blast sequence similarity searching. We focus on the identification of major gene families and pathways with potential relevance to the regenerative processes including the Wnt/β-catenin pathway, Hox genes, the SOX gene family and the TGF beta signalling pathways. These data significantly increase the amount of ophiuroid sequences publicly available and provide candidate transcripts for the further investigation of the unusual regenerative process in this Antarctic ophiuroid.