Rhomboid proteases are involved in various cellular activities, from development to cancer, and cellular processes and substrates associated with rhomboid proteases or rhomboid-like proteins have been identified for a range of organisms. Plant rhomboid proteases or rhomboid-like proteins are the least understood of the group. Moreover, the general phenomenon of alternative splicing and rhomboid protein genes has yet to be studied robustly. This study thus focused on the alternative splicing events associated with the Arabidopsis rhomboid protein gene At1g25290. The patterns obtained through RT-PCR and DNA sequencing provided evidence of alternative splicing in the At1g25290 transcript population, especially in the region spanning exons 5 and 6. The levels of the two splice variants involving exons 5 and 6 appear to be sufficiently abundant to possess functional significance and appear to adjust relative to each other in different contexts. Adjustments were observed in tissues of different developmental stages, in an Arabidopsis plant bearing a mutation in another rhomboid protein, and in response to transgenic manipulations affecting the levels of Tic40, a plastid translocon component. The resulting change to the protein sequence may, in turn, affect how At1g25290 proteins interact with their substrates. Collectively, the evidence suggests that alternative splicing of At1g25290 bears functional significance in Arabidopsis.
Salmonella is an intracellular pathogen causing significant morbidity and mortality. Its ability to grow inside macrophages is important to virulence, and is dependent on the activation state of the macrophages. Classically activated M1 macrophages are non-permissive for Salmonella growth, while alternatively activated M2 macrophages are permissive for Salmonella growth. Here we showed that endotoxin-primed macrophages (MEP), such as those associated with sepsis, showed similar levels of Salmonella resistance to M1 macrophages after 2 hr of intracellular infection, but at the 4 hr and 24 hr time points were susceptible like M2 macrophages. To understand this mechanistically, transcriptomic sequencing, RNA-Seq, was performed. This showed that M1 and MEP macrophages that had not been exposed to Salmonella, demonstrated a process termed here as primed activation, in expressing relatively higher levels of particular anti-infective genes and pathways, including the JAK-STAT (Janus kinase-signal transducer and activator of transcription) pathway. In contrast, in M2 macrophages these genes and pathways were largely expressed only in response to infection. Conversely, in response to infection, M1 macrophages, but not MEP macrophages, modulated additional genes known to be associated with susceptibility to Salmonella infection, possibly contributing to the differences in resistance at later time points. Application of the JAK inhibitor Ruxolitinib before infection reduced resistance in M1 macrophages, supporting the importance of early JAK-STAT signalling in M1 resistance to Salmonella.
Deoxyribonucleic acid (DNA) electrophoresis and blotting are techniques commonly used to visualise DNA. Both techniques use simple, inexpensive protocols that rely on fundamental properties of DNA, and these protocols have changed little since they were introduced. Electrophoresis relies on the negative electrical charge of DNA to draw these molecules through a gel, separating DNA molecules on the basis of size. Southern blotting makes use of sequence complementarity to identify specific DNA fragments on the basis of their sequences. Despite the introduction of more powerful methods such as polymerase chain reaction and DNA sequencing, electrophoresis and blotting techniques are still widely used to identify DNA fragments of interest, including the identification of unusual structures within DNA and the analysis of larger fragments which are not easily analysed by other methods. Key Concepts: DNA electrophoresis and blotting are fundamental methods of molecular biology. Basic physical and chemical properties of DNA are used to analyse unknown sequences. Gel electrophoresis uses an electrical current to separate DNA by size. Southern blotting locates a specific DNA sequence on a gel using a probe sequence that is its chemical match. Minor variations on these procedures can improve results for specific experiments. These techniques are still used to analyse unknown DNA molecules and identify DNA fragments of interest. The principles behind electrophoresis and blotting can also be seen in newer methods.
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