View allAll Photos Tagged Embryo
cross section: Zea may embryo
common name: corn grain
magnification: 100x by phase contrast
Triarch quadruple stain
Berkshire Community College Bioscience Image Library
Technical Questions:bioimagesoer@gmail.com
June 7, 2015: I was entertained by the graffiti under the drawbridge while I waited for it to be lowered.
(c) 2014, Stolfi et al, subject to a CC-BY 4.0 license (creativecommons.org/licenses/by/4.0/). Free to use and re-use, provided proper attribution is included.
Original research article can be found at dx.doi.org/10.7554/eLife.03728
cross section: Zea may embryo
common name: corn grain
magnification: 400x by phase contrast
Triarch quadruple stain
Berkshire Community College Bioscience Image Library
Technical Questions:bioimagesoer@gmail.com
Taken at Walter Reed's National Museum of Medical History (or something like that. The museum at Walter Reed. That's all I know!!)
Embryos stained for alkaline phosphatase (top) and filamentous actin (bottom, green), by Willow Gabriel
Embryo - 14.09.2023 - Take the A-Train Musicfestival - Haus Elisabeth Salzburg
www.jazzfoto.at/konzertfotos23/_take_the_a_train/_tag2/em...
Besetzung:
Maasl Maier: Bass, Synthie
Sascha Lüer: Saxophon
Jakob Thun: Schlagzeug
Marja Burchard: Vibraphon, Orgel, Posaune, …
Pine seed with embryo removed. The megagametophyte provides the nutrition for the embryo when it grows into a seedling as the seed germinates. I'm not sure what species it is, but probably some Chinese pine (commercially sold "pine nuts" from the grocery store).
An embryo is a multicellular diploid eukaryote in its earliest stage of development, from the time of fertilization until birth, hatching, or germination.
In humans, an embryo is generally considered to be between the first and the eighth week of development after fertilization.[1] and from then it is instead called a fetus. Some definitions consider embryological life to start at the third week of development to the eighth, when most organ systems are developing.[2]
The development of the embryo is called embryogenesis. In organisms that reproduce sexually, once a sperm fertilizes an egg cell, the result is a cell called the zygote, which possesses half the DNA of each of its two parents. In plants, animals, and some protists, the zygote will begin to divide by mitosis to produce a multi-cellular organism. The result of this process is an embryo.
Entry in category 1. ©Luca Cirillo; See also bit.ly/snsf_comp_copy
Artistic representation of the first two cell cycles of a C. elegans embryo in DIC microscopy. The panels are inspired by Andy Warhol’s serigraphies of Marilyn Monroe.
Caenorabditis elegans is a tiny worm widely used as a model system in basic research. Here there are depicted in an artistic manner the first stages of its embryonic development. Top left: after fertilization, the nucleus from the male and the one from the female become visible in C. elegans egg. Then the two nuclei meet (top right) and the first cell division starts (middle left). When the first division is completed two cells are formed (middle right). Shortly after the first division the second division starts in an asynchronous manner: the cell at the anterior divides first (bottom right). After this second round of cell division, a four cells embryo is formed (bottom left). This embryo will keep dividing until the formation of the entire animal in a process that takes around 24 hours. The colors and the style have been inspired by Andy Warhol’s serigraphies of Marilyn Monroe. ¦ Image#1_64
From the Donostia-San Sebastián Aquarium: 'What's that you're seeing? The eggs of these sharks are quite curious indeed. The hard translucent egg case allows us to see the minute embryos growing inside. This process will last around nine months, depending on the temperature. During this time the embryos will get their nourishment from a capsule located inside the egg known as the viteline sac. At the edges of the eggs you can see some tenacle-like protrusions which anchor them to the seaweed and keep them from being carried away with the current. (Sharks of this type adapt quite easily to captivity, making it possible to watch the spawning.)'
You can download or view Macroscopic Solutions’ images in more detail by selecting any image and clicking the downward facing arrow in the lower-right corner of the image display screen.
Three individuals of Macroscopic Solutions, LLC captured the images in this database collaboratively.
Contact information:
Mark Smith M.S. Geoscientist
mark@macroscopicsolutions.com
Daniel Saftner B.S. Geoscientist and Returned Peace Corps Volunteer
daniel@macroscopicsolutions.com
Annette Evans Ph.D. Student at the University of Connecticut
annette@macroscopicsolutions.com
You can download or view Macroscopic Solutions’ images in more detail by selecting any image and clicking the downward facing arrow in the lower-right corner of the image display screen.
Three individuals of Macroscopic Solutions, LLC captured the images in this database collaboratively.
Contact information:
Mark Smith M.S. Geoscientist
mark@macroscopicsolutions.com
Daniel Saftner B.S. Geoscientist and Returned Peace Corps Volunteer
daniel@macroscopicsolutions.com
Annette Evans Ph.D. Student at the University of Connecticut
annette@macroscopicsolutions.com
After rapid cell division, elongation and enlargement in the embryo, the embryonic tissues begin to develop. The coleorhiza appears.
Part of the image collection of the International Rice Research Institute (IRRI)
B0003839 Mouse embryo, 10.5 days old - SEM
Credit: Professor Alan Boyde. Wellcome Images
images@wellcome.ac.uk
Scanning electron micrograph of a 10.5 day old
mouse embryo. The developing heart and somites are
clearly visible. The forelimb buds are developing
as small bulges just below the level of the heart.
Scanning electron micrograph
Published: -
Copyrighted work available under Creative Commons by-nc-nd 2.0 UK, see images.wellcome.ac.uk/indexplus/page/Prices.html
Embryo transfer has been used to produce haemopoetic chimaeric twin calves. Although one is an N'Dama and the other a Boran, the twins have identical blood and bone marrow which gives birth to twins, one N'Dama and one Boran (photo credit: ILRI/Dave Elsworth).
You can download or view Macroscopic Solutions’ images in more detail by selecting any image and clicking the downward facing arrow in the lower-right corner of the image display screen.
Three individuals of Macroscopic Solutions, LLC captured the images in this database collaboratively.
Contact information:
Mark Smith M.S. Geoscientist
mark@macroscopicsolutions.com
Daniel Saftner B.S. Geoscientist and Returned Peace Corps Volunteer
daniel@macroscopicsolutions.com
Annette Evans Ph.D. Student at the University of Connecticut
annette@macroscopicsolutions.com
Heimsuchung / Visitation with embryos [1460] - Kremsmuenster, Austria
More information:
unbornwordoftheday.com/2012/12/14/heimsuchung-von-maria-u...