Bending, Twisting, and Propulsion of Photoreactive Crystals by Controlled Gas Release.

The rapid release of gas by a chemical reaction to generate momentum is one of the most fundamental ways to elicit motion that could be used to sustain and control the motility of objects. We report that hollow crystals of a three-dimensional supramolecular metal complex that releases gas by photolysis can propel themselves or other objects and advance in space when suspended in mother solution. In needle-like regular crystals, the reaction occurs mainly on the surface and results in the formation of cracks that evolve due to internal pressure; the expansion on the cracked surface of the crystal results in bending, twisting, or coiling of the crystal. In hollow crystals, gas accumulates inside their cavities and emanates preferentially from the recess at the crystal terminus, propelling the crystals to undergo directional photomechanical motion through the mother solution. The motility of the object which can be controlled externally to perform work delineates the concept of "crystal microbots", realized by photoreactive organic crystals capable of prolonged directional motion for actuation or delivery. Within the prospects, we envisage the development of a plethora of light-weight, efficient, autonomously operating robots based on organic crystals with high work capacity where motion over large distances can be attained due to the large volume of latent gas generated from a small volume of the crystalline solid.

Clinical and Genetic Study of Three Inherited Microdeletions of Chromosome 16p11.2.

Copy number variations (CNVs) in chromosome 16p11.2 are not rare. 16p11.2 microdeletion is among the most commonly known genetic etiologies of overweightness, autism spectrum disorder (ASD), and related neurodevelopmental disorders. We report the prenatal diagnosis and genetic counseling of three cases with inherited 16p11.2 microdeletions. In these families, mother/father and fetus have the same microdeletion. Following the use of molecular genetic techniques including array-based methods, the number of reported cases has rapidly increased. A combination of prenatal three-dimensional ultrasound, karyotype analysis, chromosomal microarray analysis (CMA), copy number variation sequencing (CNV-seq), whole-exome sequencing (WES), and genetic counseling is helpful for the prenatal diagnosis of chromosomal microdeletions/microduplications.

Photomechanical effects based on a one-dimensional Zn coordination polymer crystal driven by [4 + 4] cycloaddition.

Photomechanical crystals are promising candidates for photo actuators due to their ability to convert light energy into mechanical energy. We synthesized a coordination polymer crystal that can undergo [4 + 4] cycloaddition reactions with mechanical motion. The inclusion of {[ZnL2(4,4'-bipy)(CH3OH)2]}∞ in a polymer membrane significantly magnified the actuation behavior.

Prenatal diagnosis and genetic counseling of a uniparental isodisomy of chromosome 8 with no phenotypic abnormalities.

BACKGROUND: Uniparental disomy (UPD) refers to an epigenomic abnormality in which both copies of, or a part of, a homologous pair of chromosomes are inherited from one parent. UPD arises via a number of mechanisms, including monosomic and trisomic rescue (in embryonic development), incomplete segregation of chromosomes, and mitotic recombination. CASE PRESENTATION: A 34-year-old, gravida 2, para 0 woman underwent amniocentesis at 18 weeks of gestation because the noninvasive prenatal testing (NIPT) showed the highly possibility of trisomy chromosome 8. GTG-banding karyotype analysis was performed on cultured amniocytes. Chromosomal microarray analysis (CMA), fluorescence in situ hybridization(FISH), whole-exome sequencing(WES) on uncultured amniocytes were performed. RESULTS: CMA detected a 29.4 Mb uniparental isodisomy of chromosome 8, arr 8p23.3p12(168484_29427840) × 2 hmz [GRCh37(hg19)]. FISH, WES and ultrasound examination showed no abnormal. At the 36-month checkup, the baby was developing normally. CONCLUSION: Combination of NIPT,prenatal ultrasound, karyotype analysis, CMA, FISH, WES and genetic counseling will prove a more accurate risk assessment for the prenatal diagnosis of UPD.

LncRNA WEE2-AS1 promotes proliferation and inhibits apoptosis in triple negative breast cancer cells via regulating miR-32-5p/TOB1 axis.

Triple negative breast cancer (TNBC) is a malignant breast cancer subtype with poor prognosis. Recent studies have revealed the critical roles of dysregulated long non-coding RNAs (lncRNAs) in many cancer types, including TNBC. LncRNA WEE2 antisense RNA 1 (WEE2-AS1) has been reported to be able to promote the progression of hepatocellular carcinoma, but the function of WEE2-AS1 in TNBC is still unknown. Therefore, in this study, we specifically researched the role of WEE2-AS1 and probed its molecular mechanism in TNBC cells. Our results showed that WEE2-AS1 was up-regulated in TNBC cell lines, and WEE2-AS1 knockdown could inhibit TNBC cell proliferation, promote apoptosis, and suppress migration and invasion. Further, we found that miR-32-5p was down-regulated in TNBC cells and could be sponged by WEE2-AS1. Moreover, miR-32-5p could target its downstream gene transducer of ERBB2, 1 (TOB1), which was highly expressed and could play the oncogenic role in TNBC cells. Through rescue assays, we proved that WEE2-AS1/miR-32-5p/TOB1 axis could modulate cancer progression in TNBC cells. In conclusion, our results demonstrated the oncogenic function of lncRNA WEE2-AS1 in TNBC cells, providing a novel insight into TNBC therapy.

RAS protein activator-like 1 is functionally involved in hypoxia resistance in breast cancer cells by targeting hypoxia inducible factor-1α.

RAS protein activator-like 1 (RASAL1) is a member of the RAS GTPase-activating protein family, and previous studies indicate that RASAL1 is involved in the progression of hypoxia resistance in breast cancer cells. In the present study, increased levels of hypoxia inducible factor-1α (HIF-1α) were observed to be accompanied with increased expression of RASAL1 in the breast cancer cell lines MCF-7 and MDA-MB-231 cells under hypoxia. Based on this, it was postulated that RASAL1 may serve a functional role in the development of hypoxia resistant in breast cancer cells. In the present study it was demonstrated that: i) Exogenous expression of RASAL1 in MCF-7 and MDA-MB-231 sensitized its reaction to the treatment of hypoxia, which is associated with its ability to directly reduce HIF-1α expression, inhibit migration activity and decrease the accumulation of reactive oxygen species (ROS); ii) knockdown of RASAL1 reversed its reaction to treatment with hypoxia; iii) RASAL1 directly regulated the expression of HIF-1α through the ROS-mediated, extracellular signal-regulated kinase and Akt pathway. These findings provide direct evidence that the RASAL1/HIF-1α axis may serve an essential role in the hypoxia resistance of breast cancer cells, suggesting that this signaling cohort may serve as a novel therapeutic target for the treatment of breast cancer.