Comparison of Immune-Related Gene Expression in Two Chicken Breeds Following Infectious Bronchitis Virus Vaccination

This study aims to identify the immune-related genes and the corresponding biological pathways following infectious bronchitis virus vaccination in Taiwan Country and White Leghorn chicken breeds. Transcriptomic analyses of the spleen of these two breeds were conducted by next-generation sequencing. Compared to White Leghorn chicken, Taiwan Country chicken showed a significantly higher level of anti-infectious bronchitis virus (IBV) antibodies at 14 and 21 days pos vaccination. At 7 days post vaccination, in the Taiwan Country chicken, higher expression of mitogen-activated protein kinase 10, Major histocompatibility complex class 1, and V-set pre-B cell surrogate light chain 3 were found. In contrast, the White Leghorn chicken had a high expression of interleukin 4 induced 1, interleukin 6, and interleukin 22 receptor subunit alpha 2. These findings have highlighted the variations in immune induction between chickens with distinct genetic background and provided biological pathways and specific genes involved in immune responses against live attenuated IBV vaccine

Assessing the Decision-Making Process in Human-Robot Collaboration Using a Lego-like EEG Headset

Human-robot collaboration (HRC) has become an emerging field, where the use of a robotic agent has been shifted from a supportive machine to a decision-making collaborator. A variety of factors can influence the effectiveness of decision-making processes during HRC, including the system-related (e.g., robot capability) and human-related (e.g., individual knowledgeability) factors. As a variety of contextual factors can significantly impact the human-robot decision-making process in collaborative contexts, the present study adopts a Lego-like EEG headset to collect and examine human brain activities and utilizes multiple questionnaires to evaluate participants’ cognitive perceptions toward the robot. A user study was conducted where two levels of robot capabilities (high vs. low) were manipulated to provide system recommendations. The participants were also identified into two groups based on their computational thinking (CT) ability. The EEG results revealed that different levels of CT abilities trigger different brainwaves, and the participants’ trust calibration of the robot also varies the resultant brain activities

Regulation of Ribonuclease Expression by Estradiol in Rana Catesbeiana ( Bullfrog)

Multiple ribonucleases are widely found in living organisms, but the function and regulation of individual ribonucleases are still not clear. In the present study, we found that one oocytic ribonuclease, RC-RNase, is developmentally expressed in the liver and stored in the oocyte of the bullfrog, while another ribonuclease, RC-RNase L1, is constitutively expressed and retained in the liver at all stages. In females, the expression of RC-RNase increased with the degree of maturity and the concentration of plasma estradiol during oogenesis. In males, the RC-RNase gene was activated in the liver and the newly synthesized protein was secreted into plasma if estradiol was administered. To investigate the mechanism of estrogen-mediated activation of ribonuclease expression, we cloned the RC-RNase promoter and analyzed the putative transcription factor binding sites , e.g. TATA box, ERE, AP1 and CAAT box. Using luciferase as a reporter gene, we found that an estrogen response element in the promoter of RC-RNase was essential for both basic transcription and estradiol-mediated gene activation in estrogen receptor-positive MCF7 cells. These results support the hypothesis that RC-RNase is synthesized in the liver upon stimulation by estradiol during oogenesis, then secreted into the bloodstream and stored in oocytes for embryonic development

Development of RAPD-PCR assay for identifying Holstein, Angus, and Taiwan Yellow Cattle for meat adulteration detection

Incidents of food fraud have occurred worldwide, particularly in the form of meat adulteration. In this study, molecular probes were developed using the Random amplification of polymorphic DNA (RAPD) polymerase chain reaction (PCR) technique in order to identify three beef subspecies–Holstein, Angus, and Taiwan Yellow Cattle. Four RAPD-PCR 10-nucleotide primers were chosen out of a total of 60 primers. The selection was based on the reproducibility of species-specific amplicons able to detect various origins of cattle breeds. The results demonstrated that primer OPK12 produced three unique amplicons (1100 bp, 1000 bp and 480 bp) in Holstein; primer OPK14 generated one amplicon that only appeared in Holstein and Angus (200 bp); primer OPK19 amplified two species-specific amplicons in Holstein measuring 550 bp and 650 bp, respectively. However, due to the relatively lower repeatability of RAPD-PCR, higher and more specific testing repeats were required to increase the accuracy of the conclusion

Steroid Hormone-regulated let-7b Mediates Cell Proliferation and Basigin Expression in the Mouse Endometrium

Let-7b, one of the let-7 family members, was studied for its regulative role in endometrial cells during early pregnancy in mice. According to real-time RT-PCR analysis, the expression of let-7b in epithelial cells increased gradually from day 1 to day 4 of preimplantation stages and reached the highest level on day 4. On the other hand, the highest level of let-7b in stromal cells was observed on day 1, although the expression was decreased on day 2 and increased significantly on day 4. By in situ hybridization, let-7b was also found to express in uteri during days 6-8 of pregnancy. Endometrial cells isolated from prepubertal mice were treated with steroid hormones, progesterone (P4), estradiol (E2) and P4 plus E2. After 96 h of culture in the presence of steroid hormones, the expression levels of let-7b were increased in the endometrial cells, although significant differences were only observed after P4 treatment in stromal cells and after individual E2 and P4 treatments in the epithelial cells. In association with the increased let-7b expression, the cell proliferation slope, measured by a MTT assay, significantly decreased in the presence of P4 and P4 plus E2 compared with the nonhormone and E2 treatment groups during 72-108 h of culture. Furthermore, results from transfection of let-7b into stromal cells isolated from day 4 pregnant mice or prepubertal mice demonstrated that let-7b attenuated the proliferation during the periods of time examined. After transfection of let-7b into mouse stromal cells isolated from day 7 of pregnancy, the expression of Basigin (Bsg), a matrix metalloproteinase (MMP) inducer, was suppressed, as well as that of MMP-9. In conclusion, this study clarifies the expression pattern of let-7b in uterine epithelial and stromal cells during preimplantation stages in mice, as well as the inhibitory effect of let-7b associated with steroid hormones on stromal cell proliferation and on the expression of MMP-9