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Diagram of Cellular Differentiation Methods Poster

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Your walls are a reflection of your personality, so let them speak with your favourite quotes, art, or designs printed on our custom Giclée posters! High-quality, microporous resin-coated paper with a beautiful semi-gloss finish. Choose from standard or custom-sized posters and framing options to create art that’s a perfect representation of you.

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Diagram of Cellular Differentiation Methods Poster

Diagram of Cellular Differentiation Methods Poster

In developmental biology, cellular differentiation is the process by which a less specialised cell becomes a more specialised cell type. Differentiation occurs numerous times during the development of a multicellular organism as the organism changes from a simple zygote to a complex system of tissues and cell types. Differentiation is a common process in adults as well: adult stem cells divide and create fully differentiated daughter cells during tissue repair and during normal cell turnover. Differentiation dramatically changes a cell's size, shape, membrane potential, metabolic activity, and responsiveness to signals. These changes are largely due to highly controlled modifications in gene expression. With a few exceptions, cellular differentiation almost never involves a change in the DNA sequence itself. Thus, different cells can have very different physical characteristics despite having the same genome. Dedifferentiation to totipotency or pluripotency: an overview of methods. Various methods exist to revert adult somatic cells to pluripotency or totipotency. In the case of totipotency, reprogramming is mediated through a mature metaphase II oocyte as in somatic cell nuclear transfer (Wilmut et al., 1997). Recent work has demonstrated the feasibility of enucleated zygotes or early blastomeres chemically arrested during mitosis, such that nuclear envelope break down occurs, to support reprogramming to totipotency in a process called chromosome transfer (Egli and Eggan, 2010). Direct reprogramming methods support reversion to pluripotency; though, vehicles and biotypes vary considerably in efficiencies (Takahashi and Yamanaka, 2006). Viral-mediated transduction robustly supports dedifferentiation to pluripotency through retroviral or DNA-viral routes but carries the onus of insertional inactivation. Additionally, epigenetic reprogramming by enforced expression of OSKM through DNA routes exists such as plasmid DNA, minicircles, transposons, episomes and DNA mulicistronic construct targeting by homologous recombination has also been demonstrated; however, these methods suffer from the burden to potentially alter the recipient genome by gene insertion (Ho et al., 2010). While protein-mediated transduction supports reprogramming adult cells to pluripotency, the method is cumbersome and requires recombinant protein expression and purification expertise, and reprograms albeit at very low frequencies (Kim et al., 2009). A major obstacle of using RNA for reprogramming is its lability and that single-stranded RNA biotypes trigger innate antiviral defence pathways such as interferon and NF-kB-dependant pathways. In vitro transcribed RNA, containing stabilising modifications such as 5-methylguanosine capping or substituted ribonucleobases, e.g. pseudouracil, is 35-fold more efficient than viral transduction and has the additional benefit of not altering the somatic genome (Warren et al., 2010). An overarching goal of reprogramming methods is to replace genes with small molecules to assist in reprogramming. No cocktail has been identified to completely reprogram adult cells to totipotency or pluripotency, but many examples exist that improve the overall efficiency of the process and can supplant one or more genes by direct reprogramming routes (Feng et al., 2009; Zhu et al., 2010). Image reproduction rights can be found in the link near the bottom of this description. Sign up to Mr. Rebates for FREE and save 12% on any zazzle order in addition to a $5.00 sign up bonus All Rights Reserved; without: prejudice, recourse or notice (U.C.C. 1-308) Image Reproduction Rights: http://en.wikipedia.org/w/index.php?title=File:Dedifferentiation_Methods_%282010%29_-_Bischoff,_Steven_R.tif&page=1 differentiation "Cellular differentiation" "cell biology" "cellular biology" cell biology diagram "differentiation method" totipotency pluripotency chart diagram science "science chart" "science diagram" "school chart" "school diagram" "teacher's aid"

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5 out of 5 stars rating
By S.17 January 2013Verified Purchase
Print, Size: 58.42cm x 67.37cm, Media: Value Poster Paper (Semi-Gloss)
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I like the design features on the website. They enable the fitting of a good quality Print to an existing frame. This Print was of excellent quality. I would buy again. One small gripe is that the image was not centred horizontally (about 3mm out) so needed trimming. No great hardship and may have been my fault in the setting-up. Next time, I would choose to set the text below the picture to a smaller font. Overall - Thank You! Looks good in its frame - Just as expected. I had a very expensive Gallery print of this before. It got damaged - hence the replacement. It compares very well.
5 out of 5 stars rating
By A.26 April 2018Verified Purchase
Print, Size: 33.02cm x 48.26cm, Media: Value Poster Paper (Semi-Gloss)
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Would highly recommend as very helpful. Prints...just perfect 😀
5 out of 5 stars rating
By A N.8 January 2022Verified Purchase
Print, Size: 50.80cm x 40.64cm, Media: Value Poster Paper (Semi-Gloss)
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Zazzle's pictures are Amazing - I can't find these Products in the type of papers I need anywhere else. They cut them to the exact size you need , often changing the proportions to your exact requirement, The Customer Support are second to none , helpful, friendly and polite . Incredible Company - The prices are Great and so much to choose from. The Prints are clear and well Defined.

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Product ID: 228510229265579076
Created on 26/07/2011, 13:58
Rating: G