Stretchable Lithium‐Ion Batteries Enabled by Device‐Scaled Wavy Structure and Elastic‐Sticky Separator

Fast developments and substantial achievements have been shaping the field of wearable electronic devices, resulting in the persistent requirement for stretchable lithium‐ion batteries (LIBs). Despite recent progress in stretchable electrodes, stretching full batteries, including electrodes, separator, and sealing material, remains a great challenge. Here, a simple design concept for stretchable LIBs via a wavy structure at the full battery device scale is reported. All components including the package are capable of being reversibly stretched by folding the entire pouch cell into a wavy shape with polydimethylsiloxane filled in each valley region. In addition, the stretchable, sticky, and porous polyurethane/poly(vinylidene fluoride) membrane is adopted as a separator for the first time, which can maintain intimate contact between electrodes and separator to continuously secure ion pathway under dynamic state. Commercial cathode, anode, and package can be utilized in this rationally designed wavy battery to enable stretchability. The results indicate good electrochemical performances and long‐term stability at repeatable release–stretch cycles. A high areal capacity of 3.6 mA h cm^?2 and energy density of up to 172 W h L^?1 can be achieved for the wavy battery. The promising results of the cost‐effective wavy battery with high stretchability shed light on the development of stretchable energy storages.     

Fitness consequences of altering floral circadian oscillations for Nicotiana attenuata

Ecological interactions between flowers and pollinators are all about timing.Flower opening/closing and scent emissions are largely synchronized with pollinator activity,and a circadian clock regulates these rhythms.However,whether the circadian clock increases a plant's reproductive success by regulating these floral rhythms remains untested.Flowers of Nicotiana attenuata,a wild tobacco,diurnally and rhythmically open,emit scent and move vertically through a 140° arc to interact with nocturnal hawkmoths.We tethered flowers to evaluate the importance of flower positions for Manduca sexta-mediated pollinations;flower position dramatically influenced pollination.We examined the pollination success of phase-shifted flowers,silenced in circadian clock genes,NaZTL,NaLHY,and NaTOCi,by RNAi.Circadian rhythms in N.attenuata flowers are responsible for altered seed set from outcrossed pollen.     

Overexpression of the Bx7 high molecular weight glutenin subunit on the <Emphasis Type="Italic">Glu</Emphasis>-<Emphasis Type="Italic">B1</Emphasis> locus in a Korean wheat landrace

The Glu-B1al (Bx7^OE + By8) allele is important for bread-making quality. The allele was found in a Korean wheat landrace using specific DNA markers. Molecular analyses were conducted to identify the overexpressed Bx7 (Bx7^OE) subunit of the allele. The Korean wheat landrace (accession ID: IT166460) showed a similar protein expression level of Bx7 subunit, i.e., overexpression of Bx7 subunit towards cv. Glenlea, Canadian Western Red Spring wheat, which harbors Bx7^OE subunit of Glu-B1al as detected on SDS–PAGE (sodium dodecyl sulfate poly-acrylamide gel electrophoresis). In addition, 2-DE (two-dimensional electrophoresis) analysis revealed similar protein expression patterns of the Bx7 subunit regions of IT166460 and Glenlea. The proportion of Bx7 to total HMW-GSs (high molecular weight glutenin subunits) in IT166460 (56.17 ± 0.22%) was higher than that of Chinese Spring (34.75 ± 1.03%) and even that of Glenlea (46.25 ± 1.76%) as assessed by RP-HPLC (reverse-phase high-performance liquid chromatography). Overexpression of Bx7 subunit was caused by gene duplication and indels of the promoter region of the Bx7 gene. IT166460 attained the 43 bp indel of the promoter region, as did Glenlea, i.e., the amplicon size of IT166460 was the same as that of Glenlea. In addition, the nucleotides present in the duplicated gene in IT166460 were the same as those in Glenlea. Bx7^OE subunit is critical for dough strength. However, most wheat accessions harboring the subunit are distributed in America. Furthermore, most Korean wheats have little genetic variation in glutenin composition and are associated with inferior bread quality. Hence, IT166460 could be used to improve bread-making quality in the Korean wheat breeding program.     

Genome analysis of a hyper acetone‐butanol‐ethanol (ABE) producing Clostridium acetobutylicum BKM19

Previously the development of a hyper acetone‐butanol‐ethanol (ABE) producing Clostridium acetobutylicum BKM19 strain capable of producing 30.5% more total solvent by random mutagenesis of its parental strain PJC4BK, which is a buk mutant C. acetobutylicum ATCC 824 strain is reported. Here, BKM19 and PJC4BK strains are re‐sequenced by a high‐throughput sequencing technique to understand the mutations responsible for enhanced solvent production. In comparison with the C. acetobutylicum PJC4BK, 13 single nucleotide variants (SNVs), one deletion and one back mutation SNV are identified in the C. acetobutylicum BKM19 genome. Except for one SNV found in the megaplasmid, all mutations are found in the chromosome of BKM19. Among them, a mutation in the thlA gene encoding thiolase is further studied with respect to enzyme activity and butanol production. The mutant thiolase (thlA^V5A) is showed a 32% higher activity than that of the wild‐type thiolase (thlA^WT). In batch fermentation, butanol production is increased by 26% and 23% when the thlA^V5A gene is overexpressed in the wild‐type C. acetobutylicum ATCC 824 and in its derivative, the thlA‐knockdown TKW‐A strain, respectively. Based on structural analysis, the mutation in thiolase does not have a direct effect on the regulatory determinant region (RDR). However, the mutation at the 5^th residue seems to influence the stability of the RDR, and thus, increases the enzymatic activity and enhances solvent production in the BKM19 strain.     

Characterization of a novel y-type high molecular weight glutenin subunit at <Emphasis Type="Italic">Glu-D1</Emphasis> locus

Glu-D1y12.K as a novel y-type subunit was found in HMW-GSs encoded at the Glu-D1 locus in the JB20, which a Korean wheat line from F₉ lines crossed by Keumkang with Glu-D1d and Chinese Spring (CS) with Glu-D1a alleles. This novel subunit shows faster electrophoretic mobility and lower molecular weight than Dy12 subunit on sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE). The result of linear ion-trap and Fourier-transform mass spectrometry (LTQ-FT-MS) based on two-dimensional electrophoresis (2-DE) showed that the Dy12.K subunit has high similarity against protein ID: P08488 (GLT3_WHEAT) as ‘Glutenin, high molecular weight subunit 12’ form UniProtKB. The gene of the Glu-1Dy12.K subunit is composed of 1962 nucleotide base pairs containing open reading frame (ORF) as 652 amino acids corresponding to about 70.1 kDa. It has four indels (36 bp insertions: two repeated 18 and 24 bp deletion: two deletions with 6?+?18 bp) and 21 SNPs compared to Glu-1Dy10 (GI: 164457872 in NCBI), and one deletion (18 bp) and three SNPs compared to Glu-1Dy12 (GI: 1036031968) by DNA markers. Consequentially, in comparison with Dy10, 13 SNPs were non-synonymous SNPs and eight SNPs were synonymous SNPs of 21 SNPs. In comparison with Dy12, only one SNP was non-synonymous SNP of three SNPs. Furthermore, the deduced peptide sequences as ‘TGQGQQ’ corresponding to ‘AACAGGACAAGGGCAACA’ are deleted only in the Dy12.K subunit.     

Novel phenotypes of <Emphasis Type="Italic">Drosophila spinster</Emphasis> locus on the head formation during embryogenesis

spinster (spin) is a late endosome/lysosome membrane protein with the amino acid sequence of a lysosomal sugar carrier and expressed in the glial cells. Spin is required for autophagy and lysosome reformation by releasing lysosomal degradation products of autolysosome into the cytosol in Drosophila larvae and adults. However, such kind of function has not been investigated in embryos yet. In this study, for the first time, we examined the effects of spin mutation on the endocytic pathway and autophagy during embryogenesis. Loss-of-function spin mutation led to the abnormal process of early endosome/recycling endosome and the accumulation of enlarged autophagosome/autolysosome. These abnormal endocytic pathway and autophagy subsequently caused the malformation of head at embryonic stages. These results show that Spin is involved in the endocytic pathway and autophagy during embryogenesis as well as larval and adult stages.     

Genetic structure and demographic history of Lymantria dispar (Linnaeus, 1758) (Lepidoptera: Erebidae) in its area of origin and adjacent areas

We analyzed the population genetic structure and demographic history of 20 Lymantria dispar populations from Far East Asia using microsatellite loci and mitochondrial genes. In the microsatellite analysis, the genetic distances based on pairwise F_ST values ranged from 0.0087 to 0.1171. A NeighborNet network based on pairwise F_ST genetic distances showed that the 20 regional populations were divided into five groups. Bayesian clustering analysis (K = 3) demonstrated the same groupings. The populations in the Korean Peninsula and adjacent regions, in particular, showed a mixed genetic pattern. In the mitochondrial genetic analysis based on 98 haplotypes, the median‐joining network exhibited a star shape that was focused on three high‐frequency haplotypes (Haplotype 1: central Korea and adjacent regions, Group 1; Haplotype 37: southern Korea, Group 2; and Haplotype 90: Hokkaido area, Group 3) connected by low‐frequency haplotypes. The mismatch distribution dividing the three groups was unimodal. In the neutral test, Tajima's D and Fu's FS tests were negative. We can thus infer that the Far East Asian populations of L. dispar underwent a sudden population expansion. Based on the age expansion parameter, the expansion time was inferred to be approximately 53,652 years before present (ybp) for Group 1, approximately 65,043 ybp for Group 2, and approximately 76,086 ybp for Group 3. We propose that the mixed genetic pattern of the inland populations of Far East Asia is due to these expansions and that the inland populations of the region should be treated as valid subspecies that are distinguishable from other subspecies by genetic traits.     

Chocolate coated cats: TYRP1 mutations for brown color in domestic cats

Brown coat color phenotypes caused by mutations in tyrosinase-related protein-1 (TYRP1) are recognized in many mammals. Brown variations are also recognized in the domestic cat, but the causative mutations are unknown. In cats, Brown, B, has a suggested allelic series, B > b > b^l. The B allele is normal wild-type black coloration. Cats with the brown variation genotypes, bb or bb^l, are supposedly phenotypically chocolate (aka chestnut) and the light brown genotype, b^lb^l, are supposedly phenotypically cinnamon (aka red). The complete coding sequence of feline TYRP1 and a portion of the 5′ UTR was analyzed by direct sequencing of genomic DNA of wild-type and brown color variant cats. Sixteen single nucleotide polymorphisms (SNPs) were identified. Eight SNPs were in the coding regions, six are silent mutations. Two exon 2 on mutations cause amino acid changes. The C to T nonsense mutation at position 298 causes an arginine at amino acid 100 to be replaced by the opal (UGA) stop codon. This mutation is consistent with the cinnamon phenotype and is the putative light brown, b^l, mutation. An intron 6 mutation that potentially disrupts the exon 6 downstream splice-donor recognition site is associated with the chocolate phenotype and is the putative brown, b, mutation. The allelic series was confirmed by segregation and sequence analyses. Three microsatellite makers had significant linkage to the brown phenotype and two for the TYRP1 mutations in a 60-member pedigree. These mutations could be used to identify carriers of brown phenotypes in the domestic cat.