Significant Role In Movement Research Articles

Deep Labiomental Fold With Pseudocomedones

The labiomental fold is a transverse indentation of the face, which marks the intersection of the lower lip and chin.1 It plays a significant role in movement of the lower lip and in facial expression. We describe herein a child with a linear pattern of microcomedones located along a deep labiomental fold.

The effect of silymarin on expression of selected ABC transporters in the rat

Silymarin (standardized extract from the seeds of the Silybum marianum) has been used in the supportive therapy of liver diseases and its cytoprotective activity is believed to be based on antioxidant properties. Our previous works showed hypolipidemic effects of silymarin. The ATP-binding cassette (ABC) transporters G5 and G8 play a major role in biliary cholesterol secretion. The ABCA1 transporter plays a significant role in movement of cellular cholesterol to high density lipoproteins. We investigated the possibility that silymarin affects the regulation of lipid metabolism via selected ABC transporters using rats fed a high-cholesterol diet with silymarin. The major finding in this study is that silymarin up-regulated mRNA of ABC transporters (G5, G8 and A1). This result suggests that silymarin positively affects the plasma lipoprotein profile via up-regulation of ABC transporters involved in lipid metabolism. Furthermore, this study shows for the first time that silymarin up-regulates the expression of these ABC transporters at the mRNA level.

Tantangan kontemporer organisasi masyarakat sipil dalam gerakan hak asasi manusia

Civil Society Organizations play a significant role in movement of human rights. CSO's face shifting contemporary challenges, namelY, betrayal against values of human rights and weaknesses of state sovereignty. These new challenges strive for CSO's to conduct some action in two ways: retrospective paradigm and prospective one. In one hand, they should do war against forget in the past viola­tions of human rights. In the other hand, tbey have to respond progressivelY the future challenge of human rights.

Soil biopore estimation: effects of tillage, nitrogen, and photographic resolution

Networks of biopores created by plant and animal activity might accumulate in untilled cropping systems. These would be relatively well connected to the soil surface. The objective of this study was to count biopores after long-term no-till in comparison to recently tilled soil. Biopores were counted and measured to 80 cm depth at 10 cm increments in plots either under no-till wheat production for 1 year or for 17 years, and receiving zero or 130 kg ha −1 N. The measurements were repeated using different photographic methods with increased resolution. The only significant difference between the long and short term no-till was in biopore sizes over 1 mm diameter, where long-term no-till produced from 30 to 100% more biopores, probably caused by increased earthworm activity. Over 99% of biopores measured were less than 1 mm diameter. There was no difference between tillage or N treatments in the number of these smaller biopores at any depth. This means small biopores did not accumulate either above or below the plow layer in an untilled cropping system. Improved resolution in the second set of measurements produced a 100-fold increase in detection of biopores in the 0.3–0.5 mm range. This provides evidence that a substantial portion of biopores are very small and were missed in the first year of this study and perhaps in other studies of this type. It is hypothesized that biopores of 0.05–0.5 mm diameter make up over half of total biopore volume and might have a significant role in movement of water and gases.

Atrazine in a Stream‐Aquifer System: Estimation of Aquifer Properties from Atrazine Concentration Profiles

AbstractLincolns municipal wellfield consists of 44 wells developed in an alluvial aquifer adjacent to the Platte River near Ashland, Nebraska Induced recharge from the river is the primary source of water for the wellfield. Wafer samples were collected on a periodic basis from the Platte River arid two transects of monitoring wells. These samples were analyzed for the herbicide atrazine, which was used as a tracer of induced recharge in this stream‐aquifer system. Atrazine concentrations in the river and aquifer were much less than 1.0 ppb during late fall and winter, but increased to as high as 18.9 ppb during spring and summer, associated with runoff from upgradient agricultural lands. There was approximately a 21‐day lag time from the first detection of increasing atrazine concentration in the river to the first detection in monitoring wells immediately adjacent to the river. This lag time was relatively constant throughout the year and from one year to the next, even with major fluctuations of river stage and wellfield production. This consistency of lag time indicated that the travel times from the river to the first set of monitoring wells immediately adjacent to the river were fairly constant.Paths of preferential flow were identified in the aquifer at a depth of 25 to 35 feet below land surface. This aquifer zone appeared to play a significant role in movement of water from beneath the river into the wellfield.Aquifer dispersivity was calculated using a method described by Hoehn and Santschi (1987). Macrodispersivity (AL) was shown to increase linearly over the scale of the wellfield. Calculated values of AL were within limits of other reported values for this type of aquifer material and agreed well with values reported by Hoehn and Santschi (1987); These findings will be extremely beneficial for planning and management of the municipal wellfield.

Contractile filopodia and in vivo cell movement in the tunic of the ascidian, Botryllus schlosseri.

ABSTRACT The in vivo movement of one class of cells in the tunic of the ascidian Botryllus schlosseri has been analysed using differential interference optics and time-lapse cinematography. Long (up to 200 μm), thin (0·35–0·5 pm diameter) filopodia radiate from the cell-body into the matrix of the tunic. Movement of the cell-body consists of a series of short, jerky displacements with frequent changes in direction between successive displacements. The net displacement of the cell may be extremely small when the displacements are short and frequently change direction, or considerable when successive displacements show a persistence of direction (up to 114 μm in 60 min). Deformation of the elastic cuticle covering the tunic at points of attachment of the filopodia has been used to record qualitatively changes in tension in the filopodia. Correlation of the changes in tension with changes in length of the filopodia and movement of the cell-body have permitted the following conclusions. Active contractions of filopodia (i.e. increase in tension during shortening) stretch and move the cell-body. These movements exert a force on trailing or opposing filopodia. Relaxations of filopodia (i.e. decrease in tension during lengthening) result in small movements of the cell-body due to the recoil of tension in the cell-body and opposing filopodia. The position of the cell-body in space at any one instant in time is therefore the resultant of the forces developed in all the filopodia. Movement results from unilateral modulation of the tension developed in the filopodia. Active contractions play a more significant role in movement than relaxations.