Transient receptor potential vanilloid 1-mediated expression and secretion of endothelial cell-derived calcitonin gene-related peptide

Calcitonin gene-related peptide (CGRP), the principal transmitter in sensory nerves, could also be expressed in vascular endothelium. Transient receptor potential vanilloid 1(TRPV1), which modulates the synthesis and release of CGRP in sensory nerves, is also present in endothelial cells. The present study tested whether TRPV1 modulates the release and synthesis of CGRP in endothelial cells, and evaluated the protective effect of endothelial cell-derived CGRP. Human umbilical vein endothelial cells (HUVECs) were treated with capsaicin or hyperthermia. The level of CGRP mRNA was detected by RT-PCR, and protein level was measured by radioimmunoassay. Endothelial cell injury was induced by lysophosphatidylcholine, and evaluated by cell viability and lactate dehydrogenase activity. HUVECs expressed CGRP, both alpha- and beta-subtype. Capsaicin increased the level of CGRP in the culture medium, and up-regulated the expression of CGRP in endothelial cells. Hyperthermia also increased the level of CGRP mRNA. These effects were abolished by capsazepine, a competitive antagonist of TRPV1. Capsaicin significantly attenuated the endothelial cell damage induced by LPC, which was prevented and aggravated by capsazepine or CGRP(8-37,) antagonist of CGRP receptor. These results indicate that TRPV1 also regulates the expression and secretion of endothelial cell-derived CGRP, which affords protective effects on endothelial cells.     

In vitro induction of tetraploid in pomegranate (Punica granatum)

Tetraploid plants were obtained in pomegranate (Punica granatum L. var. `Nana') by colchicine treatment of shoots propagated in vitro. Shoots cultured on MS medium supplemented with 10 mg l^–1 colchicine, 1.0 mg l^–1 BA and 0.1 mg l^–1 NAA for 30 days produced tetraploids at a high frequency of 20%. No tetraploids were detected by treating the shoots in 5000 mg l^–1 colchicine for 114 h. Shoots treated by 5000 mg l^–1 colchicine for 96 h produced three morphological mutants with narrow leaves, which were later confirmed as mixoploids that separated into diploids and tetraploids after further subculture. In vitro tetraploid plants had shorter roots, wider and shorter leaves than the diploid ones. Tetraploid pomegranate plants grew and flowered normally in pots, but possessed flowers with increased diameter and decreased length compared to diploids. The number of pollen grains per anther was higher in tetraploids, but the viability of pollen decreased significantly.     

Flowering-Related RING Protein 1 (FRRP1) Regulates Flowering Time and Yield Potential by Affecting Histone H2B Monoubiquitination in Rice (Oryza Sativa)

Flowering time is a critical trait for crops cultivated under various temperature/photoperiod conditions around the world. To understand better the flowering time of rice, we used the vector pTCK303 to produce several lines of RNAi knockdown transgenic rice and investigated their flowering times and other agronomic traits. Among them, the heading date of FRRP1-RNAi knockdown transgenic rice was 23–26 days earlier than that of wild-type plants. FRRP1 is a novel rice gene that encodes a C3HC4-type Really Interesting Novel Gene (RING) finger domain protein. In addition to the early flowering time, FRRP1-RNAi knockdown transgenic rice caused changes on an array of agronomic traits, including plant height, panicle length and grain length. We analyzed the expression of some key genes associated with the flowering time and other agronomic traits in the FRRP1-RNAi knockdown lines and compared with that in wild-type lines. The expression of Hd3a increased significantly, which was the key factor in the early flowering time. Further experiments showed that the level of histone H2B monoubiquitination (H2Bub1) was noticeably reduced in the FRRP1-RNAi knockdown transgenic rice lines compared with wild-type plants and MBP-FRRP1-F1 was capable of self-ubiquitination. The results indicate that Flowering Related RING Protein 1 (FRRP1) is involved in histone H2B monoubiquitination and suggest that FRRP1 functions as an E3 ligase in vivo and in vitro. In conclusion, FRRP1 probably regulates flowering time and yield potential in rice by affecting histone H2B monoubiquitination, which leads to changes in gene expression in multiple processes.     

缺氧心肌收缩蛋白Ca~（2＋），Mg~（2＋）－ATP酶活性研究

将大鼠置于模拟海拔８ｋｍ高度的低压舱内缺氧１周及缺氧后空气中常氧恢复１周和２周,观察了左右心室功能、心肌肥厚、心肌收缩蛋白含量及其Ｃａ￣（２＋）,Ｍｇ￣（２＋）－ＡＴＰ酶活性的动态变化。结果表明,８ｋｍ缺氧１周后肺动脉压及右心室收缩压明显升高,左右心室±ｄｐ／ｄｔｍａｘ及收缩指数明显降低。左右心室肌明显肥厚,心肌收缩蛋白Ｃａ￣（２＋）,Ｍｇ￣（２＋）－ＡＴＰ酶活性明显减低。缺氧后常氧恢复１和２周后,左右心室功能逐渐恢复达到或接近正常水平,心肌肥厚逐渐减轻或恢复正常,心肌收缩蛋白Ｃａ￣（２＋）,Ｍｇ￣（２＋）－ＡＴＰ酶活性也逐渐升高。因此说明：心肌收缩蛋白Ｃａ￣（２＋）,Ｍｇ￣（２＋）－ＡＴＰ酶活性的改变是心功能变化的重要生化基础之一,它的减低是缺氧心肌对环境的代偿适应。     

High-fidelity gene targeting in embryonic stem cells by using sequence replacement vectors.

Mutations were targeted to the Hprt locus in murine embryonic stem cells by using sequence replacement vectors. When the vector was designed such that the mutated sequences were flanked on both sides by several kilobases of DNA homologous to the target locus, replacement of chromosomal sequences with the exogenous DNA occurred with precision. If, on the other hand, the target-homologous DNA on one arm of the vector was reduced to below 1 kb in length, the fidelity of recombination was diminished.     

Regulation of cell proliferation by fast Myosin light chain 1 in myoblasts derived from extraocular muscle, diaphragm and gastrocnemius

The extraocular muscle (EOM) suffers much less injury from Duchenne muscular dystrophy (DMD) than other skeletal muscles such as diaphragm and gastrocnemius. The present study was undertaken to test the hypothesis that differential expression of regulatory proteins between the EOM and other skeletal muscles is responsible for the observed difference in the sensitivity to DMD-associated damage. Protein expression in the tissue samples obtained from EOM, diaphragm or gastrocnemius of C57BL/6 mice was analyzed by two-dimensional gel electrophoresis and mass spectrometry. There were 35 proteins that were identified to be differentially expressed among different skeletal muscle tissues. Among the 35 proteins, a fast skeletal muscle isoform myosin light chain 1 (MLC1f) protein was further studied in relation to muscle cell proliferation. The EOM-derived myoblasts had much lower levels of MLC1f and higher rate of cell proliferation in contrast to the myoblasts derived from diaphragm or gastrocnemius, which displayed a higher expression of MLC1f along with a slow proliferation. Deletion of MLC1f using siRNA targeting MLC1f resulted in an increased rate of cell proliferation in the myoblasts. Cell cycle analysis revealed that MLC1f inhibited the transition of the cell cycle from the G1 to the S phase. Therefore, the present study demonstrates that MLC1f may negatively regulate proliferation of myoblasts through inhibition of the transition from the G1 to the S phase of the cell cycle. Low levels of MLC1f in myoblasts of EOM may ensure cell proliferation and enhance the repair process for EOM under the DMD disease condition, thus making EOM suffer less injury from DMD.     

Overexpression of a new rice vacuolar antiporter regulating protein OsARP improves salt tolerance in tobacco

We examined the function of the rice (Oryza sativa L.) antiporter-regulating protein OsARP by overexpressing it in tobacco (Nicotiana tabacum L.). In public databases, this protein was annotated as a putative Os02g0465900 protein of rice. The OsARP gene was introduced into tobacco under the control of the cauliflower mosaic virus 35S promoter. The transformants were selected for their ability to grow on medium containing kanamycin. Incorporation of the transgene in the genome of tobacco was confirmed by PCR, and its expression was confirmed by Western blot analysis. Transgenic plants had better growth and vigor than non-transgenic plants under salt stress in vitro. Overexpression of OsARP in transgenic tobacco plants resulted in salt tolerance, and the plants had a higher rate of photosynthesis and effective PSII photon yield when compared with the wild type. The OsARP protein was localized in the tonoplast of rice plants. Transgenic plants accumulated more Na+ in their leaf tissue than did wild-type plants. It is conceivable that the toxic effect of Na+ in the cytosol might be reduced by sequestration into vacuoles. The rate of water loss was higher in the wild type than in transgenic plants under salt stress. Increased vacuolar solute accumulation and water retention could confer salt tolerance in transgenic plants. Tonoplast vesicles isolated from OsARP transgenic plants showed Na+/H+ exchange rates 3-fold higher than those of wild-type plants. These results suggest that OsARP on the tonoplasts plays an important role in compartmentation of Na+ into vacuoles. We suggest that OsARP is a new type of protein participating in Na+ uptake in vacuoles.