Aedes
mosquitoes harboring intracellular
Wolbachia
bacteria are being released in arbovirus and mosquito control programs. With releases taking place around the world, understanding the contribution of host variation to
Wolbachia
phenotype is crucial. We generated a
Wolbachia
transinfection (
w
AlbB
Q
) in
Aedes aegypti
and performed backcrossing to introduce the infection into Australian or Malaysian nuclear backgrounds. Whole
Wolbachia
genome sequencing shows that the
w
AlbB
Q
transinfection is near-identical to the reference
w
AlbB genome, suggesting few changes since the infection was first introduced to
Ae. aegypti
over 15 years ago. However, these sequences were distinct from other available
w
AlbB genome sequences, highlighting the potential diversity of
w
AlbB in natural
Ae. albopictus
populations. Phenotypic comparisons demonstrate effects of
w
AlbB infection on egg hatch and nuclear background on fecundity and body size, but no interactions between
w
AlbB infection and nuclear background for any trait. The
w
AlbB infection was stable at high temperatures and showed perfect maternal transmission and cytoplasmic incompatibility regardless of host background. Our results demonstrate the stability of
w
AlbB across host backgrounds and point to its long-term effectiveness for controlling arbovirus transmission and mosquito populations.
Importance
Wolbachia
bacteria are being used to control the transmission of dengue and other arboviruses by mosquitoes. For
Wolbachia
release programs to be effective globally,
Wolbachia
infections must be stable across mosquito populations from different locations. In this study, we transferred
Wolbachia
(strain
w
AlbB) to
Aedes aegypti
mosquitoes with an Australian genotype and introduced the infection to Malaysian mosquitoes through backcrossing. We found that the phenotypic effects of
Wolbachia
are stable across both mosquito backgrounds. We sequenced the genome of
w
AlbB and found very few genetic changes despite spending over 15 years in a novel mosquito host. Our results suggest that the effects of
Wolbachia
infections are likely to remain stable across time and host genotype.
We theoretically analyze the Einstein-Podolsky-Rosen (EPR) correlation, the quadrature squeezing, and the continuous-variable quantum teleportation when considering non-Gaussian entangled states generated by applying multiple-photon subtraction and multiple-photon addition to a twomode squeezed vacuum state (TMSVs). Our results indicate that in the case of the multiple-photonsubtracted TMSVs with symmetric operations, the corresponding EPR correlation, the two-mode squeezing degree, the sum squeezing, and the fidelity of teleporting a coherent state or a squeezed vacuum state can be enhanced for any squeezing parameter r and these enhancements increase with the number of subtracted photons in the low-squeezing regime, while asymmetric multiple-photon subtractions will generally reduce these quantities. For the multiple-photon-added TMSVs, although it holds stronger entanglement, its EPR correlation, two-mode squeezing, sum squeezing, and the fidelity of a coherent state are always smaller than that of the TMSVs. Only when considering the case of teleporting a squeezed vacuum state does the symmetric photon addition make somewhat of an improvement in the fidelity for large-squeezing parameters. In addition, we analytically prove that a one-mode multiple-photon-subtracted TMSVs is equivalent to that of the one-mode multiple-photon-added one. And one-mode multiple-photon operations will diminish the above four quantities for any squeezing parameter r.PACS: 42.50.Dv
We investigate nonclassical properties of the field states generated by subtracting any number photon from the squeezed thermal state (STS). It is found that the normalization factor of photon-subtracted STS (PSSTS) is a Legendre polynomial of squeezing parameter r and average photon numbern of thermal state. Expressions of several quasi-probability distributions of PSSTS are derived analytically. Furthermore, the nonclassicality is discussed in terms of the negativity of Wigner function (WF). It is shown that the WF of single PSSTS always has negative values ifn < sinh 2 r at the phase space center. The decoherence effect on PSSTS is then included by analytically deriving the time evolution of WF. The results show that the WF of single PSSTS has negative value if 2κt < ln{1 − (2n + 1)(n − sinh 2 r)/[(2N + 1)(n cosh 2r + sinh 2 r)]}, which is dependent not only on average number N of environment, but also onn and r.
Relevant researches have recognized the vital role of inducing ferroptosis in the treatment of tumor. The latest findings indicate that PEBP1/15-LO can play an essential role in the process of cell death. However, its role in regulating ferroptosis in hepatocellular carcinoma (simplified by HCC) remains unclear. The previous research of our team has proved that DHA can induce ferroptosis of hepatic stellate cells. In this study, we found that DHA could also induce ferroptosis in HCC cells. Interestingly, DHA induced ferroptosis by promoting the formation of PEBP1/15-LO and promoting cell membrane lipid peroxidation. In addition, we also found that DHA had no obvious regulatory effect on 15-LO, but it could promote PEBP1 protein expression. Importantly, we discovered the upregulation of PEBP1 induced by DHA was related to the inhibition of its ubiquitination degradation. In vivo experiments have also obtained consistent results that DHA can inhibit tumor growth and affect the expression of ferroptosis markers in tumor tissues, which would be partially offset by interference with PEBP1.
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