"Structural rearrangements" refers to changes or adjustments made to the organization, design, or arrangement of something. It involves rearranging components, elements, or parts to create a new structure or system.
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And if you're dreaming big about your remodel — such as custom finishes (stone replacements for tile, for example),
interior structural rearrangement, and new doors and windows, your bathroom remodeling cost estimates should rise accordingly.
This study illustrates how materials form through complex kinetic pathways and that by harnessing
dynamic structural rearrangement, it may be possible to craft new, never - before - seen materials and properties.
In future work, they hope to use the control provided by water - free solvents to obtain dynamic
DNA structural rearrangements that are not possible in water, and investigate other solvents that may have additional properties attractive for nanotechnology applications.
This analysis discovered an average of 97
structural rearrangements of the genome per tumor, and some 9,653 mutations of various types in 5,712 genes.
Finally, AR
genomic structural rearrangements encoding for truncated AR were detectable in ctDNA from treatment - naive metastatic CRPC and may identify primary resistant disease, Chi noted.
5:30 - 5:50 pm: Ultraconservation of DNA sequence provides a new lens for focusing on
chromosomal structural rearrangements in neurodevelopmental disorder genomes R.B. McCole, Harvard Medical School, et al
And if you're after the crème de la crème of bathroom renovations, with custom finishes (stone replacements for tile, for example),
interior structural rearrangement, and new doors and windows, the cost will, of course, be higher than a «cosmetics only» renovation or similar renovation with lower - end finishes.
Frommer and his team hypothesized that it may be possible to probe transport activity by spying on
the structural rearrangements that a transporter undergoes as it moves its target molecule across the membrane barrier.
Frommer had previously developed technology to spy on transport protein activity by using fluorescent tags in a cell's DNA to monitor
the structural rearrangements that a transporter undergoes as it moves its target molecule.
Subsequent X-ray crystallography of eIF3d revealed
the structural rearrangements that must occur when eIF3 binds to the mRNA tag and which open up the secret compartment.