Exact(3)
Frequency-based and multivariate methods showed greater epigenetic than genetic differentiation between L. racemosa natural populations, as can also be visualized on PCAs (Figure 2).
Both methods showed greater predictive power in the youngest age-group (4 to 8 years for the Demirjian method and 4 to 10 years for the Nolla method) and neither was significant in adults (19 to 34 years for the Demirjian method and 20 to 34 years for the Nolla method).
In this limited comparison, the sensitivity of the other assays for detecting influenza B virus appeared to be lower than the sensitivity for detecting influenza A, and the molecular methods showed greater sensitivity for detecting influenza B than the other methods.
Similar(57)
All of the methods show greater consistency for functional residues than non-functional, even at greater distances, meaning that these assignments are a little more trustworthy than general alignments (Fig. 3).
The direct estimation method showed greater REs than the indirect method for both remote sensing technologies.
The cation exchange method showed greater sensitivity and tolerance to low pH samples than the reversed phase method.
This RT-PCR method showed greater sensitivity and reliability in the detection of walnut traces in commercial foodstuffs compared with ELISA assays.
The Nolla method showed greater predictive capacities than the Demirjian one in samples with more heterogeneous ages.
Route 2 (MRI-based method) showed greater differences and a larger effect sizes of the cortical SUVr values of prodromal AD patients and CN subjects than route 1.
The two methods show great promise for techniques which could lead to the design of complex mechanical systems, including musical instrument soundboards, directly from knowledge of the desired natural frequencies.
These methods show great potential in organization of nanowires with controlled orientation, alignment density, and spatial position onto various device substrates, which are ultimately necessary for fabrication of future-generation electronics, optoelectronics, sensors, bioelectronic interfaces, and energy conversion and storage systems.
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