Wearer and non-wearer DNA on the collars and cuffs of upper garments of worn clothing.

During an investigation, the question of interest might be whether or not a person has worn a given garment. Wearer DNA studies have contributed to our knowledge and understanding of DNA transfer and persistence on items of worn clothing. However, there is currently no extensive dataset on DNA profiling outcomes from a variety of upper garments.

Localized hypermutation and associated gene losses in legume chloroplast genomes.

Point mutations result from errors made during DNA replication or repair, so they are usually expected to be homogeneous across all regions of a genome. However, we have found a region of chloroplast DNA in plants related to sweetpea (Lathyrus) whose local point mutation rate is at least 20 times higher than elsewhere in the same molecule. There are very few precedents for such heterogeneity in any genome, and we suspect that the hypermutable region may be subject to an unusual process such as repeated DNA breakage and repair.

A common variant in MTHFD1L is associated with neural tube defects and mRNA splicing efficiency.

Polymorphisms in folate-related genes have emerged as important risk factors in a range of diseases including neural tube defects (NTDs), cancer, and coronary artery disease (CAD). Having previously identified a polymorphism within the cytoplasmic folate enzyme, MTHFD1, as a maternal risk factor for NTDs, we considered the more recently identified mitochondrial paralogue, MTHFD1L, as a candidate gene for NTD association. We identified a common deletion/insertion polymorphism, rs3832406, c.

Transplastomic tobacco plants expressing a fatty acid desaturase gene exhibit altered fatty acid profiles and improved cold tolerance.

The possibility of altering the unsaturation level of fatty acids in plant lipids by genetic transformation has implications for the stress tolerance of higher plants as well as for their nutritional value and industrial utilisation. While the integration and expression of transgenes in the plastome has several potential advantages over nuclear transformation, very few attempts have been made to manipulate fatty acid biosynthesis using plastid transformation. We produced transplastomic tobacco plants that express a Delta(9) desaturase gene from either the wild potato species Solanum commersonii or the cyanobacterium Anacystis nidulans, using PEG-mediated DNA uptake by protoplasts.

Disruption of essential plastid gene expression caused by T7 RNA polymerase-mediated transcription of plastid transgenes during early seedling development.

Transcription of plastid transgenes by plastid-targeted T7 RNA polymerase (ptT7RNAP) during early seedling development in tobacco was associated with a pale-green leaf phenotype, depletion of plastid rRNAs and arrest of shoot development. Extensive analysis of mutant seedlings at the transcript level using DNA microarrays and RNA gel blotting revealed severe disruption of plastid rRNA accumulation at 4-days post-germination and reduced transcript accumulation for the essential gene clpP. Several nuclear genes encoding plastid proteins were differentially regulated in mutant seedlings over time.

T7 RNA polymerase-directed expression of an antibody fragment transgene in plastids causes a semi-lethal pale-green seedling phenotype.

A T7 promoter-controlled transgene, AbL, encoding a camel single-domain antibody fragment that binds to the model antigen chicken egg-white lysozyme was introduced into the plastid genome of tobacco. AbL expression was activated in the transplastomic line by introducing a nuclear transgene, ST7, encoding a light-regulated plastid-targeted T7RNAP by cross-pollination. The resulting AbL x ST7 progeny seedlings developed a pale-green phenotype and ceased growth soon after germination.

Plastid genes transcribed by the nucleus-encoded plastid RNA polymerase show increased transcript accumulation in transgenic plants expressing a chloroplast-localized phage T7 RNA polymerase.

A gene fusion encoding a plastid-targeted bacteriophage T7 RNA polymerase (T7RNAP) under the transcriptional control of the light-regulated promoter and the plastid-targeting signals of a ribulose-bisphosphate carboxylase/oxygenase (Rubisco) small-subunit (SSU) gene was introduced into the nuclear genome of Nicotiana tabacum (tobacco). Immunoblot analysis, in vitro transcription assays and protease treatment of isolated chloroplasts revealed that T7RNAP activity was localized within chloroplasts. RNA gel blot analyses showed a substantial increase in transcript abundance for several plastid genes that are normally transcribed by the nucleus-encoded plastid RNA polymerase (NEP) including rpoC1, rpl33, rps18, rps12, and clpP.