Does breathing type influence electromyographic activity of obligatory and accessory respiratory muscles?

Craniomandibular electromyographic (EMG) studies frequently include several parameters, e.g. resting, chewing and tooth-clenching. EMG activity during these parameters has been recorded in the elevator muscles, but little is known about the respiratory muscles. The aim of this study was to compare EMG activity in obligatory and accessory respiratory muscles between subjects with different breathing types. Forty male subjects were classified according to their breathing type into two groups of 20 each: costo-diaphragmatic breathing type and upper costal breathing type. Bipolar surface electrodes were placed on the sternocleidomastoid, diaphragm, external intercostal and latissimus dorsi muscles. EMG activity was recorded during the following tasks: (i) normal quiet breathing, (ii) maximal voluntary clenching in intercuspal position, (iii) natural rate chewing until swallowing threshold, (iv) short-time chewing. Diaphragm EMG activity was significantly higher in the upper costal breathing type than in the costo-diaphragmatic breathing type in all tasks (P < 0·05). External intercostal EMG activity was significantly higher in the upper costal breathing type than in the costo-diaphragmatic breathing type in tasks 3 and 4 (P < 0·05). Sternocleidomastoid and latissimus dorsi EMG activity did not show significant differences between breathing types in the tasks studied (P > 0·05). The significantly higher EMG activity observed in subjects with upper costal breathing than in the costo-diaphragmatic breathing type suggests that there could be differences in motor unit recruitment strategies depending on the breathing type. This may be an expression of the adaptive capability of muscle chains in subjects who clinically have a different thoraco-abdominal expansion during inspiration at rest.

Identification of the minimal sequence required for vascular-specific activity of Tomato mottle Taino virus Replication-associated protein promoter in transgenic plants.

A 597 nt fragment from Tomato mottle Taino virus (ToMoTV) DNA-A, with 459 nt located upstream of the Replication-associated protein translation start codon, was tested for promoter activity in solanaceous plants. The promoter activity of this fragment (pRep(459::Rep)) was demonstrated when it was introduced upstream the uidA reporter gene into tobacco, potato and tomato plants by genetic transformation. It became active in 7-day-old transgenic tobacco seedlings as revealed by a vascular-specific pattern of gene expression which was maintained during the continued growth of the plant. Transformed potato and tomato plants also showed a vascular-specific pattern of expression. In comparative assays, pRep(459::Rep) showed an expression activity 10-40-fold less than the 35S promoter from Cauliflower mosaic virus. To delimit the minimal cis-acting elements necessary for vascular specificity of this promoter, a set of PCR deletion mutants of pRep(459::Rep) (pRep(459), pRep(324), pRep(203), pRep(145), pRep(132) and pRep(115)), were generated and used to transform tobacco plants. Transgenic tobacco plants belonging to all the pRep versions were blue stained in the vascular system except those from the pRep(115) version. The results described in this report demonstrate that the minimal sequences necessary for the pRep promoter activity are confined in a segment of 132 nts (located between the nts 2454 and 2585 of the ToMoTV DNA A) and that this promoter harbors those elements sufficient for vascular-specific expression.