Jocelyn D. Martens scite author profile

Jocelyn D. Martens

2Publications

7Citation Statements Received

83Citation Statements Given

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Redeemer University College

Publications

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Testes extracts inhibit heart contractions in females of the blood‐feeding insect, Rhodnius prolixus

Martens

Chiang

2010

Insect Science

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Myogenic contractions of the heart of the female blood‐feeding insect, Rhodnius prolixus (Stål), are inhibited by crude extracts of testes applied directly to isolated dorsal vessels. Dorsal vessels were observed with a stereo microscope and heart beats timed with a stopwatch. In normal Rhodnius saline, hearts contract at 14.8 ± 7.1 beats per minute (n= 45). Crude extracts of the testes and the two male reproductive accessory organs (the opaque and transparent accessory glands) were prepared from previously frozen tissue by homogenizing 5–20 glands in a small glass homogenizer containing Rhodnius saline, centrifuging for 5 min at 2 000 g, and collecting the supernatant. Testes extract as low as 1.0 glands per mL inhibit contractions whereas crude extracts of the opaque or transparent accessory glands have no consistent effect. We refer to this cardiac inhibitor as rhodtestolin (Rhodnius testis inhibitory factor), and discuss its possible effects on the female during copulation.

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The vagina muscles of the blood-sucking insect Rhodnius prolixus as a model for exploring the physiological effects of proctolin

Chiang

Martens

O’Donnell

2010

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Proctolin is a neuroactive pentapeptide first isolated from the cockroach Periplaneta americana in which it has an excitatory effect on contractions on visceral muscles of the hindgut. Subsequently, proctolin is reported in a wide variety of invertebrates, and considerable efforts have been made to determine its mode of action. Its primary role appears to be that of a neuromodulator rather than a classical neurotransmitter, and it may also serve as a neurohormone, depending on the muscles examined. The present study identifies the vagina muscles of the blood-sucking insect Rhodnius prolixus (Stål) as a proctolinergic system. Physiological doses of proctolin generate prolonged contractions that closely mimic the effects of motor nerve stimulation. This preparation is convenient and robust, warranting its use as an experimental system to further understand the role of proctolin in the regulation of muscle contractions in insects. Moreover, these muscles are innervated by an identifiable inhibitory component providing a means to investigate the interaction between proctolin excitation and neural inhibition.

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