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Scientists have replicated the natural process of mammalian embryonic development in the laboratory up to the point of development of brain and heart. Using stem cells, researchers created synthetic mouse embryos outside uterus that recapitulated natural process of development in the womb up to the day 8.5. This is a milestone in synthetic biology. In the future, this will guide studies on human synthetic embryos, which in turn could usher in development and production of synthetic organs for patients awaiting transplants.
An embryo is usually understood as an intermediate developmental stage in sequential natural phenomenon of reproduction initiated by sperm meeting an ovum to form a zygote, which divides to become an embryo, followed subsequently by development into a foetus and a new-born upon completion of gestation.
Advancements in embryonic cell nuclear transfer saw the instance of skipping the step of fertilisation of an egg by the sperm. In 1984, an embryo was created from an egg in which its original haploid nucleus was removed and replaced by the nucleus of a donor embryonic cell which successfully underwent development in a surrogate to give birth to the first cloned baby sheep. With the perfection of Somatic Cell Nuclear Transfer (SCNT), Dolly the sheep was created in 1996 from a mature adult cell. This was the first case of cloning of a mammal from an adult cell. Dolly’s case also opened up the possibility of development of personalised stem cells.
www.scientificeuropean.co.uk/sciences/biology/would-synth...
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Focal Length - 55 mm
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Medioni et al. discover how cells work together to form tubes during morphogenesis of the fly heart. (JCB 182(2) TOC1)
This image is available to the public to copy, distribute, or display under a Creative Commons Attribution-Noncommercial-Share Alike 3.0 Unported license.
Reference: Medioni et al. (2008) J. Cell Biol. 182:249-261.
Published on: July 28, 2008.
Doi: 10.1083/jcb.200801100.
Read the full article at:
This embryo is now much more developed, looking very similar to an early human embryo. We now see the eyes clearly as well as major organs (the kidney), veins and vessels. The embryo now is very developed.
This is a longitudinal section close-up of a caryopsis of Triticum aestivale (Wheat). The embryonic root is is to the left, covered by the coleorhiza, and the shoot is to the right, covered by the coleoptile. The cotyledon, termed the scutellum, is positioned between the endosperm and the embryo and facilitates nutrient transfer. The remainder of the caryopsis is endosperm surrounded by the seed coat (integument) fused to the ovary wall (double layer at the bottom).
Baby baby baby!!! This was only at seven weeks, so s/he is still pretty tiny. We'll have the next ultrasound within the next month or so, and we should be able to find out the sex then. ♥.♥ :)
The chicken embryo after 24 hours was not yet developed. It was very hard to distinguish what was what. Chickens are called embryos all the way until they are hatching. The Forebrain was more of a sharper shape compared to the chicken embryo at 33 hours. There aren’t that many somites at the younger stage. As I looked through the microscope this was a pinkish reddish color that was very hard to see under the microscope.
So, now there seems to only be one (maybe two), but the heart is pumping, in fact, "he's all heart", with the heart being over 35% of the body right now - that's the big black part in the tiny little body.
This is a drawing of a chicken embryo after 96 hours. Looking closely at it, one sees that is it a lot more developed than the two earlier embryos. This is the last drawing of the chicken that we drew in class. In this drawing there are many more parts. One sees the neutral tube that passes through the almost the entire embryo. This embryo also has parts such as the allantois and the posterior limb buds. The allantois helps the embryo handle liquid waste. The aorta is also developed; with the ventral aorta and the aurotic arch.