![]() ![]() Here's how to make a picture collage fast. If you're done with the classic collage-making modge-podge mess (say that five times fast, eh?), we've got the scoop for you. It's a simple 5-step process that can be used for photo cards, ads, banners, mood boards, and more. Plus, you have access to millions of stock images to fill in any gaps. Pre-made templates can help get you started fast. Customize with divine color palettes, flexible spacing and sizing, text, graphics, and more. Learn how to make a collage that tells your story with PicMonkey's collage maker. Whether you want to capture the impact of a trip you took, explain how to use a product, or capture the essence of your brand, a collage takes its viewers on a journey that stays with them in a way standalone images can't. They support concepts that c-axial crystal growth is unhindered by collage hole zone dimensions, that crystals are organized in the tendon in a series of generally parallel platelets, and that crystal growth in width across collagen fibrils may follow channels or grooves formed by adjacent hole zones in register.Collages are a great way to use your photos and images to tell a story. These data provide the first direct visual evidence from 3-D imaging describing the size, shape, orientation, and growth of mineral crystals in association with collagen of a normally mineralizing vertebrate tissue. ![]() Implicit in the results is that the formation of crystals occurs at different sites and times by independent nucleation events in local regions of collagen. ![]() ![]() Tomography shows for the first time that crystal width varies (30-45 nm) but crystal thickness is uniform (approximately 4-6 nm at the resolution limit of tomography) more crystals are located in the collagen hole zones than in the overlap regions at the earliest stages of tendon mineralization the crystallographic c-axes of the platelets lie within +/- 15-20 degrees of one another rather than being perfectly parallel adjacent platelets are spatially separated by a minimum of 4.2 +/- 1.0 nm crystals apparently fuse in coplanar alignment to form larger platelets development of crystals in width occurs to dimensions beyond single collagen hole zones and a thin envelope of organic origin may be present along or just beneath the surfaces of individual mineral platelets. The reconstructions also corroborate observations of a variable crystal length (up to 170 nm measured along crystallographic c-axes), the presence of crystals initially in either the hole or overlap zones of collagen, and crystal growth in the c-axis direction beyond these zones into adjacent overlap and other hole regions. Reconstructions of longitudinal tendon profiles confirm the presence of irregularly shaped mineral platelets, whose crystallographic c-axes are oriented generally parallel to one another and directed along the collagen long axes. Tomographic 3-D reconstructions were computed from a 2 degree tilt series of micrographs taken over a minimum angular range of +/- 60 degrees. Embedded specimens containing initial collagen mineralizing sites were cut into 0.5-micron-thick sections and viewed and photographed at 1.0 MV in the Albany AEI-EM7 high-voltage electron microscope. To define the ultrastructural accommodation of mineral crystals by collagen fibrils and other organic matrix components during vertebrate calcification, electron microscopic 3-D reconstructions were generated from the normally mineralizing leg tendons from the domestic turkey, Meleagris gallopavo. ![]()
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