ALBERT — All Library Books, journals and Electronic Records Telegrafenberg

1

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Bromide ion probe nuclear magnetic resonance studies of protein conformation. Application to methemoglobin (1973)

Collins, T. R. ; Starcuk, Z. ; Burr, A. H. ; [et al.]

s.l. : American Chemical Society

Journal of the American Chemical Society 95 (1973), S. 1649-1656

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ISSN: 1520-5126

Source: ACS Legacy Archives

Topics: Chemistry and Pharmacology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1021/ja00786a047

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2

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Components of phototaxis of the nematode Mermis nigrescens (1990)

Burr, A. H. Jay ; Babinszki, Colette P. F. ; Ward, Amanda J.

Springer

Journal of comparative physiology 167 (1990), S. 245-255

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ISSN: 1432-1351

Keywords: Undulatory locomotion ; Scanning motion ; Directed turn ; Orientation ; Phototaxis ; Klinotaxis ; Photomovement ; Nematode

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The gravid females of Mermis are positively phototaxic at the time of their migration to egglaying sites in vegetation on which their grasshopper hosts feed. On a horizontal felt surface, segments of the path traced by the tail are oriented approximately towards a source of monochromatic light in the 350–540 nm region, but are not oriented at longer wavelengths and in the dark. The components of this phototaxis include locomotion by the posterior 4/5 of the body, orientational bending of the neck region while the anterior is held above the substrate, and a scanning motion (bending) of the head region (anterior 2 mm). Like other nematodes and snakes, propulsion is associated with posteriorly propagated body waves, but unlike other animals known, the waves tend to lie perpendicular to a felt surface, and unlike other nematodes, contact with the surface is on the female's ventral surface. The body waves are initiated by the motion of the anterior 1/5 (15 mm) of the body, the average orientation of which determines the path of the following 4/5. During phototaxis, the anterior tip is swung both sideways and vertically about the direction towards the light source. The tip motion is a result of a scanning motion of the head and a slower orientational bending of the neck. The base of the head appears to be actively directed towards the source by the bending of the neck. This behavior can resolve two light sources positioned 120° apart but not 90° apart. The scanning motion of the head is independent of neck orientation and appears to enhance the probability of discovering the direction of a new source. Discovery is followed by a directed turn of the base of the head towards the source which is initiated by the bending of the neck. Locomotion of the body follows the path of the anterior through the turn and phototaxis is thus initiated.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00188117

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Scanning motion, ocellar morphology and orientation mechanisms in the phototaxis of the nematode Mermis nigrescens (1990)

Jay Burr, A. H. ; Babinszki, Colette P. F.

Springer

Journal of comparative physiology 167 (1990), S. 257-268

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ISSN: 1432-1351

Keywords: Scanning motion ; Shadowing ; Ocellus ; Mechanism ; Orientation ; Phototaxis ; Klinotaxis ; Photomovement ; Transverse phototaxis ; Nematode

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The putative ocellus of Mermis females consists of a hollow cylinder of dense hemoglobin pigmentation located in the anterior tip. The exact location of the photoreceptive nerve endings, however, is unknown. During phototaxis a continual bending or scanning motion of the head (anterior 2 mm) causes the orientation of the tip to swing about the direction of the source. By turning off (shuttering) the light source whenever the tip orientation was to one side of the source direction, the average orientation of the base of the head, and eventually the body orientation, was caused to be biased about 28° to the opposite side. Because the shuttering was synchronized with the scanning motion, the scanning motion must be involved in the maintenance of orientation to light. The direction of the bias rules out a two-signal comparison mechanism of orientation and demonstrates that a deviation of the tip from the source direction must decrease, rather than increase, the illumination of the photoreceptors. These findings, and the ocellar morphology, require that the photoreceptors be located inside the hollow tube of pigmentation where they can be shadowed by the pigment during deviations of the tip. Focusing by the curved anterior end should cause a similar modulation of the illumination at this location. The occasional episodes of transverse phototaxis can be explained by the leakiness of the pigment walls to transverse illumination. Analysis of the motion of the anterior in the presence and absence of shuttering indicates that the orientation of the base of the head, due to the motion of the neck, is controlled by the signals generated during one or more cycles of the scanning motion of the head. The orientation may be regulated by the phase relationship between the photoreceptor signal and putative proprioceptive signals that indicate the bending in the head.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00188118

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The crystal and molecular structure of 2-bromo-N-salicylideneaniline (1969)

Burr, A. H. ; Hobson, A. D.

Copenhagen : International Union of Crystallography (IUCr)

Acta crystallographica 25 (1969), S. 2662-2663

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ISSN: 1600-5740

Source: Crystallography Journals Online : IUCR Backfile Archive 1948-2001

Topics: Chemistry and Pharmacology , Geosciences , Physics

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1107/S056774086900625X

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5

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Analysis of phototaxis in nemato des using directional statistics (1979)

Burr, A. H.

Springer

Journal of comparative physiology 134 (1979), S. 85-93

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ISSN: 1432-1351

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary 1. The direction of horizontal movement of 2 nematode species with eyespots was observed both with and without directional sources. The results comprise statistical proof of phototaxis in nematodes and demonstrate the usefulness of directional statistics in evaluating and comparing the responses. 2. Two directional sources were tried, one including all the visible spectrum but red (“blue source”) and one containing only red. Both species had a significant tendency to move in the direction away from the blue source (0°), whereas the directions taken under control conditions were not significantly different from random (Fig. 2, and Table 2). A tendency to move away from the red source was significant forOncholaimus vesicarius but not forEnoplus anisospiculus. 3. Bimodal distributions with 〈90° between the modes occurred in at least 2 cases (Fig. 2, Table 3) and their statistical treatment is illustrated and discussed. 4. The component of the mean direction along the 0° direction,r c, was significantly greater forO. vesicarius than forE. anisospiculus. However a measure of the tendency to move horizontally indicated no significant difference between species. Therefore the difference inr c is probably not due to a difference in motivation. A difference in steering strategy is suggested by a negative correlation betweenr c and the angle between modes. 5. The results are interpreted in terms of ocellus morphology and possible steering strategies.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00610280

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6

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Unique locomotory mechanism of Mermis nigrescens, a large nematode that crawls over soil and climbs through vegetation (1994)

Gans, Carl ; Burr, A. H. Jay

New York, NY : Wiley-Blackwell

Journal of Morphology 222 (1994), S. 133-148

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ISSN: 0362-2525

Keywords: Life and Medical Sciences ; Cell & Developmental Biology

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Biology , Medicine

Notes: Females of Mermis nigrescens, a nematode parasitic on grasshoppers, climb through terrestrial vegetation where they lay their eggs. The 100-mm-long body of these nematodes bridges gaps in this three-dimensional substratum, and crawls efficiently over planar surfaces. The nematodes do not use the classical undulant pattern of nematode locomotion as one coordinated unit; instead they propel themselves in several independent, locally controlled zones that propagate posteriorly. A repeated motion of their anterior end laces the body around fixed objects at which force may be applied. Propulsive force is applied to objects as the body glides past the contact site. Intermediate loops are elevated above the surface where they cannot contribute to propulsion. These loops rise and fall with time due to varying differences in propulsive forces between the contact sites.Forces are applied to the objects by internally generated bending couples that are propagated along the trunk, propelling the body in a cam-follower mechanism. Bending couples are generated by the contraction of ventral or dorsal longitudinal muscle bands that apply compressive force to the cuticle. The muscle bands, consisting of a single layer of obliquely striated muscle cells, are closely applied to the cuticle and are separated from it only by a fibrous basal lamina and a thin extension of a hypodermal cell. The myofilaments of each sarcomere are parallel to the body axis and attached perpendicularly via dense bodies (z-line equivalents) to the basal lamina, which in turn is fixed to the cuticle via filaments passing through the hypodermal cytoplasm, Consequently, forces are transmitted laterally to the cuticle over the entire length of the muscle, compressing it parallel to the surface without need for attachment to the terminal ends of the muscle cells. Thus the muscles are engineered for local control of bending and avoidance of buckling. There is evidence that the motor nervous system of Mermis may not be as simple as in classical nematode examples, which may explain why Mermis is capable of a much more localized control of locomotory motion. © 1994 Wiley-Liss, Inc.

Additional Material: 10 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/jmor.1052220203

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