The effects of cranio-cervical flexion on activation of swallowing-related muscles.

We tested the effects of cranio-cervical flexion (CCF) on activation of swallowing-related muscles while swallowing liquid in a sample of 45 healthy volunteers. Activation following CCF movement was examined across two positions (supine and sitting) and, three pressure levels and two different postures were examined in each condition, respectively. When CCF was applied, activation of swallowing-related muscles was significantly increased compared to the neutral neck position, and such findings were found across both the supine and sitting positions. Also in the supine position, when the pressure level of the stabilizer was escalated, there was a significant difference in the activity of the swallowing-related muscles compared to the baseline level. In conclusion, our results suggest that CCF may be a viable method to enhance the effectiveness of swallowing-related muscles by changing neck position. When CCF is applied, the stability of the deep flexor muscles must be secured first after which superficially located muscles may better assist swallowing with less effort.

Construction of a deep coverage BAC library from Capsicum annuum, 'CM334'.

A bacterial artificial chromosome (BAC) library consisting of 235,000 clones with an average insert size of 130 kb was constructed from Capsicum annuum, 'CM334'. Based on a pepper haploid genome size of 2,702 Mbp/C, the BAC library is estimated to contain approximately 12 genome equivalents and represents at least 99% of the pepper genome. Screening of the library with mitochondrial DNA probes (coxII, coxIII, atp6 and atp9) and chloroplast DNA probes (atpB, rbcL) indicated that contamination with cytoplasmic DNA was less than 0.5%. To estimate the possibility of isolating a specific clone, the library was screened with single or low-copy gene-specific probes and RFLP probes. Screening of high density BAC filters with RFLP markers linked to L (TMV resistance), y (fruit color), C2 (fruit color) and C (pungency) loci under high stringency conditions revealed that at least three positive BAC clones were found per each probe. This fact indicates that the library is highly reliable and represents a resource for map-based cloning, physical mapping, and characterization of upstream and downstream regulations of the chili pepper genes.

Construction and characterization of a bacterial artificial chromosome library from chili pepper.

A library of the bacterial artificial chromosome (BAC) that consisted of a total of 78,336 clones with an average insert size of 80 kb was constructed from Capsicum annuum, 'CM334', which is resistant to Phytophthora capsici and PVY. Based on a haploid genome size of pepper of 2,702 Mbp/C, the BAC library was estimated to contain approximately three genome equivalents and represented at least 90% of the pepper genome. In order to determine the percentage of BAC clones that contained mitochondrial DNAs, the entire library was screened with probes of chili pepper mitochondrial DNAs. The result showed that only twenty-five clones, which is 0.03% of the total BAC clones, were hybridized to mitochondrial gene probes. This indicates that the library is comprised predominantly of the nuclear sequences. The library was also tested for isolating specific clones by screening with a few known genes from the chili pepper, phytoene synthase gene, and two MADS genes--HpMADS1 and HpMADS3. The result showed that the three clones for phytoene synthase and the two clones for each MADS gene were positively hybridized to the specific probes. This indicates that the library is highly reliable and represents a resource for initiating map-based cloning and contig mapping in chili pepper.