751 research outputs found
Temporal entrainment in overlapped speech: Cross-linguistic study
Wlodarczak M, Simko J, Wagner P. Temporal entrainment in overlapped speech: Cross-linguistic study. In: 13th Annual Conference of the International Speech Communication Association 2012 (INTERSPEECH 2012). Vol. 1. Red Hook, NY: Curran; 2013: 614-617
Modeling Durational Incompressibility
Windmann A, Simko J, Wrede B, Wagner P. Modeling Durational Incompressibility. In: Bimbot F, ed. Speech in Life Sciences and Human Societies. Vol. 2. Red Hook, NY: Curran; 2014: 1375-1379
Relative timing of bilabial gesture in Finnish
O'Dell M, Simko J, Nieminen T, Vainio M, Lehtinen M. Relative timing of bilabial gesture in Finnish. In: Proceedings of the 17th International Congress of Phonetic Sciences. 2011
Timing of intervocalic gestures in Finnish
O'Dell M, Simko J, Nieminen T, Vainio M, Lehtinen M. Timing of intervocalic gestures in Finnish. In: Proceedings of the XXVI Finnish Phonetics Symposium. 2010
Syllable-boundary effect: temporal entrainment in overlapped speech
Wlodarczak M, Simko J, Wagner P. Syllable-boundary effect: temporal entrainment in overlapped speech. In: Proceedings of Speech Prosody 2012. 2012: 611-614
Pitch and duration as a basis for entrainment of overlapped speech onsets
Wlodarczak M, Simko J, Wagner P. Pitch and duration as a basis for entrainment of overlapped speech onsets. In: Bimbot F, ed. Speech in Life Sciences and Human Societies. Vol. 1. Red Hook, NY: Curran; 2014: 535-538
Finnish rhythmic structure and entrainment in overlapped speech
Włodarczak M, Simko J, Wagner P, O'Dell M, Lennes M, Nieminen T. Finnish rhythmic structure and entrainment in overlapped speech. In: Asu E-L, Lippus P, eds. Nordic Prosody. Proceedings of the XIth Conference, Tartu 2012. Frankfurt a.M.: Peter Lang; 2013: 421-430
Mapping loci for chlorosis associated with chlorophyII b deficiency in potato
About 30% of the potato plants from a (Solanum tuberosum × S. berthaultii) × S. tuberosum backcross population had chlorotic, malformed leaves; but a gradation in symptom severity suggested regulation by more than one gene. The study was undertaken to determine whether this was the case, whether any genes previously reported to control chlorosis in potato were involved, and to see how symptoms were related to effects on chlorophyll content. Testing for quantitative trait loci indicated major control by a single recessive gene on chromosome 1, close to one or more loci that have been reported to produce chlorosis in tomato, but distinct from similar genes previously identified in potato. The proposed symbol for the potato gene that confers phenotype with chlorotic and malformed leaves is cml (chlorotic and malformed leaves). The effects of this gene appeared to be accentuated by a second gene, located on chromosome 12. Chlorotic plants showed a 50% decrease in chlorophyll b level in the affected parts of leaves. It is concluded that cml is different from previously reported genes for chlorosis in potato, that at least one other gene modifies the intensity of symptom expression, and that the observed chlorosis is produced through effects on chlorophyll b level
Genomics and Marker-Assisted Improvement of Vegetable Crops
Vegetables are an integral part of the human diet worldwide. Traditional breeding approaches have been used extensively to develop new cultivars of vegetables with desirable characteristics, including resistance/tolerance to biotic and abiotic stresses, high yield, and an elevated content of compounds beneficial to human health. The technological progress since the early 1980s has revolutionized our ability to study and manipulate genetic variation in crop plants. The development of high-throughput sequencing platforms and accompanying analytical methods have led to sequencing and assembly of a large number of plant genomes, construction of dense and ultra-dense molecular linkage maps, identification of structural variants, and application of molecular markers in breeding programs. Linkage mapping and genome-wide association mapping studies have been used to identify chromosomal locations of genes and QTLs associated with plant phenotypic variations important for crop improvement. This review provides up-to-date information on the status of genomics and marker-assisted improvement of vegetable crops with the focus on tomato, pepper, eggplant, lettuce, spinach, cucumber, and chicory. For each vegetable crop, we present the most recent information on genetic resources, mapping populations, genetic maps, genome sequences, mapped genes and QTLs, the status of marker-assisted selection and genomic selection, and discuss future research prospects and application of novel techniques and approaches
sj-pdf-1-vdi-10.1177_10406387231200178 – Supplemental material for Oxytetracycline-resistant Paenibacillus larvae identified in commercial beekeeping operations in Saskatchewan using pooled honey sampling
Supplemental material, sj-pdf-1-vdi-10.1177_10406387231200178 for Oxytetracycline-resistant Paenibacillus larvae identified in commercial beekeeping operations in Saskatchewan using pooled honey sampling by Oleksii Obshta, Michael W. Zabrodski, Tayab Soomro, Geoff Wilson, Fatima Masood, Jenna Thebeau, Marina C. B. Silva, Sarah Biganski, Ivanna V. Kozii, Roman V. Koziy, M. Fahim Raza, Midhun S. Jose, Elemir Simko and Sarah C. Wood in Journal of Veterinary Diagnostic Investigation</p
- …
