Parkin-mediated mitophagy is a potential treatment for oxaliplatin-induced peripheral neuropathy.

Oxaliplatin-induced peripheral nerve pain (OIPNP) is a common chemotherapy-related complication, but the mechanism is complex. Mitochondria are vital for cellular homeostasis and regulating oxidative stress. Parkin-mediated mitophagy is a cellular process that removes damaged mitochondria, exhibiting a protective effect in various diseases; however, its role in OIPNP remains unclear. In this study, we found that Parkin-mediated mitophagy was decreased, and reactive oxygen species (ROS) was upregulated in OIPNP rat dorsal root ganglion (DRG) in vivo and in PC12 cells stimulated with oxaliplatin (OXA) in vitro. Overexpression of Parkin indicated that OXA might cause mitochondrial and cell damage by inhibiting mitophagy. We also showed that salidroside (SAL) upregulated Parkin-mediated mitophagy to eliminate damaged mitochondria and promote PC12 cell survival. Knockdown of Parkin indicated that mitophagy is crucial for apoptosis and mitochondrial homeostasis in PC12 cells. In vivo study also demonstrated that SAL enhances Parkin-mediated mitophagy in the DRG and alleviates peripheral nerve injury and pain. These results suggest that Parkin-mediated mitophagy is involved in the pathogenesis of OIPNP and may be a potential therapeutic target for OIPNP.NEW & NOTEWORTHY This article discusses the effects and mechanisms of Parkin-mediated mitophagy in oxaliplatin-induced peripheral nerve pain (OIPNP) from both in vivo and in vitro. We believe that our study makes a significant contribution to the literature because OIPNP has always been the focus of clinical medicine, and mitochondrial quality regulation mechanisms especially Parkin-mediated mitophagy, have been deeply studied in recent years. We use a variety of molecular biological techniques and animal experiments to support our argument.

miR-206-3p Targets Brain-Derived Neurotrophic Factor and Affects Postoperative Cognitive Function in Aged Mice.

Postoperative cognitive dysfunction (POCD) occurs after surgery and severely impairs patients' quality of life. Finding POCD-associated variables can aid in its diagnosis and prognostication. POCD is associated with noncoding RNAs, such as microRNAs (miRNAs), involved in metabolic function, immune response alteration, and cognitive ability impairment; however, the underlying mechanisms remain unclear. The aim of this study was to investigate hub miRNAs (i.e., miRNAs that have an important regulatory role in diseases) regulating postoperative cognitive function and the associated mechanisms. Hub miRNAs were identified by bioinformatics, and their expression in mouse hippocampus tissues was determined using real-time quantitative polymerase chain reaction. Hub miRNAs were overexpressed or knocked down in cell and animal models to test their effects on neuroinflammation and postoperative cognitive function. Six differentially expressed hub miRNAs were identified. miR-206-3p was the only broadly conserved miRNA, and it was used in follow-up studies and animal experiments. Its inhibitors reduced the release of proinflammatory cytokines in BV-2 microglia by regulating its target gene, brain-derived neurotrophic factor (BDNF), and the downstream signaling pathways. miR-206-3p inhibition suppressed microglial activation in the hippocampi of mice and improved learning and cognitive decline. Therefore, miR-206-3p significantly affects POCD, implying its potential as a therapeutic target.

Phenotypic correlations of carpal gland diverticular number with production traits and its genome-wide association analysis in multiple pig populations.

Pig carpal glands play crucial roles in territorial recognition, reproductive behavior, and information exchange; however, their effects on production traits and underlying genetic mechanisms remain unclear. In this study, 1028 pigs from six populations were counted for the carpal gland diverticular numbers (CGDNs) on the left (CGDNL) and right (CGDNR) legs, and their carcass and meat quality traits were assessed. The CGDNs were significantly different among the populations, and Licha Black pigs had a lower CGDN than the Bama Xiang breed. It was also significantly different between sexes, with males having more diverticula than females (p ≤ 0.0391). Moreover, the number was asymmetric, with CGDNR being significantly higher than CGDNL. Notably, CGDNs was significantly correlated with each other in phenotype and genetics and with 24-h pH, 24-h meat color score, 24-h marbling score, fat content, moisture content, sodium salt content, and saturated fatty acid content in phenotype. Furthermore, genome-wide association analyses identified seven SNPs in association with CGDNs at a 5% genome-wide significance level, all of which were located in a 1.78-Mb (35.347-37.129 Mb) region on chromosome 1. CNC10010837 and CNC10010840 were the top SNPs: both had an additive effect of 0.789 ± 0.120 on CGDNR with p = 8.31E-10. These findings provide important insights into the functions and underlying genetic mechanisms of swine carpal glands.

Quality Evaluation of Lonicerae Flos Produced in Southwest China Based on HPLC Analysis and Antioxidant Activity.

Lonicera macranthoides, the main source of traditional Chinese medicine Lonicerae Flos, is extensively cultivated in Southwest China. However, the quality of L. macranthoides produced in this region significantly varies due to its wide distribution and various cultivation breeds. Herein, 50 Lonicerae Flos samples derived from different breeds of L. macranthoides cultivated in Southwest China were collected for quality evaluation. Six organic acids and three saponin compounds were quantitatively analyzed using HPLC. Furthermore, the antioxidant activity of a portion of samples was conducted with 2,2'-Azinobis-(3-ethylbenzthiazoline-6-sulphonate) (ABTS) and 1,1-diphenyl-2-picryl-hydrazyl (DPPH) radical scavenging experiments. According to the quantitative results, all samples met the quality standards outlined in the Chinese Pharmacopoeia. The samples from Guizhou, whether derived from unopened or open wild-type breeds, exhibited high quality, while the wild-type samples showed relatively significant fluctuation in quality. The samples from Chongqing and Hunan demonstrated similar quality, whereas those from Sichuan exhibited relatively lower quality. These samples demonstrated significant abilities in clearing ABTS and DPPH radicals. The relationship between HPLC chromatograms and antioxidant activity, as elucidated by multivariate analysis, indicated that chlorogenic acid, isochlorogenic acid A, isochlorogenic acid B, and isochlorogenic acid C are active components and can serve as Q-markers for quality evaluation.

First report of stem rot of Scrophularia ningpoensis caused by Fusarium commune in China.

Chinese figwort (Scrophularia ningpoensis Hemsl.) is an important annual herb and its dried root tubers are used as a traditional Chinese herbal medicine. In May 2021, a disease with stem rot symptoms on S. ningpoensis was observed at three randomly selected fields (~0.67 ha per field) in Nanchuan district (28.93°N, 107.27°E) of Chongqing, China. Disease incidence was estimated between 10% and 17% based on calculating the proportion of symptomatic plants. Initially, watery dark brown spots appeared on the epidermis of the stem. Then the spots expanded into spindle or strip shape, and the center of lesions were sunken, constricted and rotted finally (Figure 1A and Figure 1B). Leaves turned yellow and the plants wilted (Figure 1C). The infected parts of the stem broke easily and became brittle. The number of daughter buds used for reproduction was reduced by more than 24% and the production of root tubers decreased by more than 3%. Twelve stems with typical rot symptoms were sampled from the three fields for further investigation. Infested tissue fragments (4×4 mm) were surface sterilized with 75% ethanol for 30s and 2% sodium hypochlorite for 2 minutes in turn, finally, were rinsed 4 times with sterilized water. The disinfected tissue were air-dried and transferred onto potato dextrose agar (PDA) in the dark for 6 days at 25℃. The resulting fungal colonies were isolated by the single-spore isolation technique (Fang. 1998). Six different fungal colonies were isolated (X1-X6) and Koch's postulates were conducted to verify the pathogenicity of individual isolates. The stem surfaces of 8 months old plants were sterilized with 75% ethanol for 30 s, rinsed three times with sterilized water, and stabbed with a sterilized needle. Conidial from the fungal colonies grown on PDA plate were harvested by filtration through five layers of sterilized absorbent gauze. Conidial concentration was then adjusted to 106 conidia per mL. 10 µL of conidial suspension was sprayed on stems injured with a sterile syringe. For each isolate, 6 plants were inoculated. Stems inoculated with sterilized water were used as a blank control. All plants were all put in a growth chamber at 28℃ with 75 to 80% relative humidity under a 12 h photoperiod for 15 days. The pathogenicity test was repeated once. After 13 days, the stems inoculated with X3 showed the same rot symptoms as we observed in the fields (Figure 1D) whereas the control stems remained symptomless (Figure 1E). The fungus re-isolated from the plants showing 100% symptoms had a similar morphology than X3 as described below. At the same time, the stems inoculated with X1, X2, X4, X5 and X6 showed no sign of rot. After culturing on PDA for 9 days under 25℃ in dark, isolate X3 grew all over the dish with white or pale pink pigmentation in the center (Figure 1F). Macroconidia were produced on synthetic low nutrient agar (SNA) plates, which showed sickle or spindle, 3 septate, straight to slightly curved with a foot-shaped basal cell, ranging from 17.595~44.88 × 2.04~3.315 µm (n=30). Microconidia were oval, elliptical or reniform, 0 to 1 septate, 3.06~12.75 ×1.785~2.805 µm (n=30) in size (Figure 1G). Phialides of conidiophores were cylindrical, short and monophialides or polyphialides (Figure 1H). Chlamydospores were found terminal or cluster with round or oblong (Figure 1I). These morphological characteristics described as Fusarium commone (Skovgaard et al. 2003). For molecular identification, the ribosomal internal transcribed spacer (ITS), translation elongation factor 1-alpha (EF-1α), RNA polymerase II subunit 1 (RPB1), the largest subunit of RNA polymerase Ⅱ gene sequences (RPB2) and the mitochondrial small subunit rDNA (mtSSU) genes were amplified with primers V9G /ITS4 (Hoog et al. 1998; White et al. 1990), EF1-668F /EF1-1251R (Alves et al. 2008), Fa/G2R (O'Donnell et al. 2010), 5f2/7cr (Liu et al. 1999; O'Donnell et al. 2010) and NMS1/NMS2 (Li et al. 1994). The sequences of isolate X3 were deposited in GenBank (MZ571935 (ITS), MZ576201 (EF-1α), MZ882396 (RPB1), MZ882397 (RPB2) and MZ867716 (mtSSU)). All sequences were revealed more than 99.8% sequence identity with reported sequences of Fusarium commune (GenBank accession No: KY630717, JF740838, KU171680, KU171700 and MK439851). Based on the optimal nucleotide replacement model SYM of multi-gene series sequence matrix, the system development tree was constructed. Results showed the strain X3 and those of F. commune (Isolates numbers were NRRL 28387, MRC 2566, MRC 2564 and CZ3-5-6) were clustered into the same evolutionary branch with a post-mortem probability of 0.996 (Figure 2). According to the morphology, molecular identification and phylogenetic analysis based on the concatenated of EF-1α and RPB2 genes sequences, the isolated X3 was identified as F. commune. The ITS sequences of X1, X2, X4, X5 and X6 showed homology exceeding 97.1% to Fusarium tricinctum (MH931273), Plectosphaerella cucumerina (MH858371), Sordariomycetes sp. (JX179237), Whalleya microplace (EF026129) and Pestalotiopsis maculiformans (EU552147), respectively, suggested the five strains to be these species possibly. GeneBank accession number of X1, X2, X4, X5 and X6 was OM074010, OM074011, OM074013, OM074015 and OM074018, respectively. To our best knowledge, this is the first report of F. commune infecting S. ningpoensis in China. Stem rot caused by F. commune is a severe threat to Chinese figwort cultivation, and identification of this pathogen is important for effective disease management and control.

First report of Diaporthe eres causing root rot of Coptis chinensis Franchet.

Chongqing coptis (Coptis chinensis Franchet) industry produces more than 60% of the Chinese coptis crop, and has been exported to many countries and regions. Since 2008, root rot has become a serious and widespread disease on coptis plants in Shizhu county with an average incidence of 40%, and yield losses up to 67%. Symptomatic coptis plants showed stunted growth, with the fibrous roots and main roots having brown or black, rotten, necrotic lesions. To our knowledge, Fusarium solani, F. carminascens, F. oxysporum and F. tricinctum have been previously reported as pathogens of coptis root rot (Luo et al. 2014; Cheng et al. 2020; Wu et al. 2020), but non Fusarium pathogens has not been reported yet. In order to identify new pathogens, 33 diseased roots were collected from Shizhu (30°18'N, 108°30'E) in October 2019. Small samples (0.5 cm in length) were cut from the border between diseased and healthy tissue, and then put on PDA after surface sterilization. Cultures were incubated at 25°C in dark until fungal colonies were observed. After subculturing for 3 times, 3 out of 21 isolates yielded a similar type of fungal colony. White, aerial, fluffy mycelium were formed and reached 8.3 cm diameter within 7 days, and dark pigmentation developed in the centre. Colonies turned to gray with age, and abundant dark brown pycnidia and black stromata were formed at maturity. Alpha conidia were aseptate, hyaline, fusiform to ellipsoidal, often biguttulate, measuring (6.0-8.5)×(2.0-3.0) µm. Beta conidia were aseptate, hyaline, linear to hooked, measuring (18-30)×(1.0-1.5) µm (Figure S1). For further identification, a multigene phylogenetic analysis was carried out. The internal transcribed spacer (ITS), translation elongation factor 1ɑ (tef1-ɑ), histone H3 (his3), calmodulin (cal), and ß-tubulin (tub2) gene regions were amplified with ITS1/ITS4, EF1-728F/EF1-986R, CYLH3F/H3-1b, CAL228F/CAL737R, T1/Bt2b (White et al. 1990; Glass and Donaldson 1995; Carbone and Kohn 1999; Crous et al. 2004). GenBank accession numbers of isolate H13 were MT463391 for the ITS region, MT975573 for tef1-ɑ, MT975574 for his3, MT975575 for cal, and MT975576 for tub2. BLAST results showed the ITS, tef1-ɑ, his3, cal and tub2 sequences revealed 99.82% (553/554 base pairs), 100% (347/347 base pairs), 100% (474/474 base pairs), 99.39% (486/489 base pairs), and 99.14% (803/810 base pairs) homology respectively with those of Diaporthe eres (MN816416.1, KU557616.1, KC343564.1, KU557595.1, and KY569366.1). Thus, H13 were identified as D. eres based on its morphological and molecular characteristics. Pathogenicity of D. eres in coptis was investigated using the H13 isolate (1 of the 3 isolates). The roots of 10 healthy 2-year-old coptis plants were individually inoculated with 5 ml of a 106 conidia/mL conidial suspension and sterilized water was used to mock inoculate. Thirty days after inoculation, most of the inoculated coptis roots showed dark brown and rotten root, similar to those observed in the field, whereas mock inoculated roots showed healthy. D. eres was recovered from symptomatic roots and identified based on morphology. To our knowledge, this is the first report of D. eres causing root rot of coptis not only in China but anywhere in the world.

[Effect of drying processing methods on different specifications of Sophorae Flos based on comprehensive statistical analysis].

To investigate the effects of six common drying methods on the quality of different specifications of Sophorae Flos, in order to select their suitable drying methods. According to appearance and morphology, Sophorae Flos was divided into the following three specifications: flower bud type(HL), half-open type(BK) and blooming type(SK). All specifications of samples were treated with shade-drying method(25 ℃, natural temperature), sun-drying method, hot-air-drying method(60, 105 ℃), and drying method(60 ℃) after steaming. The contents of total flavonoids, rutin, narcissus, quercetin, isorhamnetin, and Fe~(3+) reducing ability, DPPH free radical scavenging ability, ABTS free radical scavenging ability and fluorescence recovery after photobleaching(FRAP) were detected by UV, HPLC and colorimetry, respectively. Principal component analysis(PCA), cluster analysis(CA) and correlation analysis were used to comprehensively evaluate the quality of samples. According to the results, there were significant differences in the effect of drying methods on different specifications of samples. The drying method(60 ℃) after steaming was suitable for HL and BK, while the hot-air-drying method(60 ℃) was suitable for SK. When the fresh medicinal materials could not be treated in time, they should be spread out in a cool and ventilated place. Under high and low temperature conditions, the quality of three specifications of Sophorae Flos would be reduced. The hot-air-drying method(105 ℃) and shade-drying method(25 ℃) were not suitable for the treatment of fresh flowers and flower buds of Sophora japonicus. There were obviously differences of chemical compositions and antioxidant activities among the three specifications of samples. Therefore, the specifications of medicinal materials should be controlled to ensure the uniform quality. The study provided the abundant data reference for the selection of appropriate drying methods for the three specifications of Sophorae Flos, and useful exploration for the classification and processing of medicinal materials of flowers.

First Report of Root Rot Caused by Fusarium avenaceum on Coptis chinensis Franchet in Chongqing, China.

Coptis chinensis Franchet, is a perennial herb used as a traditional Chinese medicine. Annual production of Coptis is about 3000 tons in Shizhu, Chongqing. In recent years, root rot has become a serious and widespread disease on Coptis in Shizhu with an average incidence of 40%, and yield losses up to 67%. Infected plants were easy to pull from the soil, and most of the fibrous roots and main roots were brown or black compared to healthy roots that were yellow. Severely infected plants were wilted and necrotic. In October 2019, 33 diseased roots were collected from Shizhu (30°18'N, 108°30'E), and small samples (0.5 cm in length) were cut from the border between diseased and healthy tissue, successively sterilized with 75% ethanol and 2% sodium hypochlorite, rinsed 3 times with sterilized water, dried on sterilized filter paper, and transferred onto PDA, and incubated at 25°C for 7 days in dark. Eighteen distinct fungal isolates (H1-H18) were isolated and Koch's postulates were conducted to verify the pathogenicity of individual isolates. The rhizosphere soil of healthy 2-year-old Coptis plants was inoculated by pouring 5 mL of conidial suspension (106 conidia/mL) scraped from a culture of each isolate on PDA. Sterilized water was used to mock inoculate. For each isolate, 6 plants were inoculated. After 20 days, the roots of all plants inoculated with H15 or H18 were dark brown and rotten, while mock inoculated plants were healthy. The isolates H15 and H18 were re-isolated from symptomatic plants. Isolate H15 formed abundant white mycelium on PDA and produced rose pigment in the agar. Conidia were long and slender, straight to slightly curved, with 1-3 septate. The apical cells were tapering and bent, and the foot cells were distinctly notched. Conidiogenous cells were monophialides and polyphialides. No chlamydospores were observed (Figure S1). Isolate H18 formed white sparse mycelium on PDA and produced no pigment in the agar. Conidia were relatively wide, straight and stout, with 3-5 septate. The apical cells were blunt and rounded, and the foot cells were barely notched. Conidiogenous cells were long monophialides. Chlamydospores were formed intercalary in the hyphae (Figure S2). For further identification, the internal transcribed spacer (ITS), ß-tubulin, translation elongation factor 1ɑ (EF1ɑ) and RNA polymerase second largest subunit (RPB2) gene regions were amplified with ITS1/ITS4, Bt2a/Bt2b, EF1/EF2 and 5f2/7cr (White et al. 1990; Glass and Donaldson, 1995; O'Donnell et al. 2010). GenBank accession numbers of H15 and H18 were MT463390 and MT463389 for the ITS region, MT465656 and MT465654 for ß-tubulin, MT653321 and MT465651 for EF1ɑ, and MT653323 and MT653322 for RPB2. BLAST results showed the ITS, ß-tubulin, EF1ɑ, and RPB2 sequences revealed 100% (533/533 base pairs), 100% (265/265 base pairs), 98% (622/632 base pairs), and 99% (936/947 base pairs) homology respectively with those of Fusarium avenaceum (MN186746.1, MH791368.1, KU238140.1, and MK185027.1), and 100% (537/537 base pairs), 100% (227/227 base pairs), 100% (688/688 base pairs), and 99.03% (918/927 base pairs) with F. solani in GenBank (MH857319.1, MN692929.1, KP674211.1, and MH300549.1), respectively. Thus, H15 and H18 were identified as F. avenaceum and F. solani based on its morphological and molecular characteristics. To our knowledge, F. solani has been previously reported as a pathogen on Coptis (Luo et al. 2014), and this is the first report of root rot on Coptis caused by F. avenaceum in the world. Identification of the pathogens is important for effective disease management and control.

[Quality grading standard of Citrus aurantium seedlings].

Forty-three annual Citrus aurantium grafted seedlings from Chongqing, Sichuan, Hunan, Jiangxi and other main producing areas were collected, and the plant height, rootstock diameter, scion diameter, root length, root diameter, lateral root number, root breadth, branch number, branch length, green leaf number, leaf length, leaf width, thorns and other indicators were measured. Through the K-cluster analysis of SPSS 19.0 software, the classification standards were obtained. Combined with the production practice, plant height, scion diameter and branch number were taken as the quality classification indexes of C. aurantium seedlings(annual grafted seedlings), and three classification standards were established. If it does not meet the three-level standard, it is unqualified seedling and cannot be used as seedling. It is suggested to use the first and second level seedlings in production.

[Identification of Coptis chinensis root rot disease pathogenic Fusarium spp. fungi].

Root rot disease is vital disease of Coptis chinensis, it has bursted in most producing area in recent years, and has caused severe damage. To identify the pathogenic fungi, Fusarium spp. fungi were isolated from rot root, of which the pathogenic fungi were screened with inoculation on C. chinensis root and plant, and identified with molecular and morphological method. The 20 Fusarium spp. fungi were obtained, of which 5 displayed high pathogenicity. It was deduced that F. oxysporum, F. solani and F. tricinctum were the pathogen, possibly pioneer pathogen of C. chinensis root rot disease. Among which F. oxysporum was dominant and deserved to pay more attention. High temperature and high humidity can increase pathogenicity of Fusarium spp. So the global climate warming may lead to temperature rising of C. chinensis producing area and favor the pathogen fungi, which may be one of the main factors leading to bursting of C. chinensis root rot disease. To control the root rot, beside developing and using pesticide, producing base should be moved to a high altitude area.

Analgesic effects of microRNA-129-5p against bone cancer pain through the EphB1/EphrinB2 signaling pathway in mice.

The study aims to investigate the analgesic effects of microRNA-129-5p (miR-129-5p) on bone cancer pain (BCP) by targeting Eph receptor B1 (EphB1) through the EphB1/EphrinB2 signaling pathway. BCP mice models were established, and C3H/HeJ female mice were classified into the normal, blank, negative control (NC), miR-129-5p mimics, miR-129-5p inhibitors, EphB1 knockout (KO), and miR-129-5p inhibitors + EphB1 KO groups. Quantitative reverse transcription polymerase chain reaction and Western blot analysis were used to evaluate the miR-129-5p expression, and messenger RNA (mRNA) and protein expressions of EphB1, p-EphB1, EphrinB2, and p-EphrinB2. EphB1 and EphrinB2 were highly activated in the tibias of BCP mice 7 days after the operation. EphB1 is a target gene of miR-129-5p. The mechanical withdrawal threshold increased in the miR-129-5p mimics, EphB1 KO and miR-129-5p inhibitors + EphB1 KO groups, but decreased in the miR-129-5p inhibitors group. Compared with the blank and the NC groups, the expression of miR-129-5p was significantly increased in the miR-129-5p mimics group, and the mRNA and protein expressions of EphrinB2, p-EphrinB2, EphB1, and p-EphB1 were significantly decreased, while in the miR-129-5p inhibitors group, the results were opposite (all P < 0.05); the mRNA and protein expressions of EphrinB2, p-EphrinB2, EphB1, and p-EphB1 were significantly decreased in the EphB1 KO group (all P < 0.05); the expression of miR-129-5p was significantly decreased in the miR-129-5p inhibitors + EphB1 KO group ( P < 0.05), while the mRNA and protein expressions of EphrinB2 and p-EphrinB2 were not significantly different ( P > 0.05). The results indicated that upregulated miR-129-5p alleviate BCP via downregulation of the EphB1/EphrinB2 signaling pathway.

Differentially expressed genes between two groups of backcross inbred lines differing in fiber length developed from Upland × Pima cotton.

Fiber length is one of the most important fiber quality traits in Upland cotton (Gossypium hirsutum L.), the most important fiber crop, and its improvement has been impeded in part by a lack of knowledge regarding its genetic basis. Introgressed backcross inbred lines (BILs) or near isogenic lines (NILs) differing in fiber length in the same genetic background, developed through advanced backcrossing between Upland cotton and extra-long staple cotton (G. barbadense L.), provide an important genomic resource for studying the molecular genetic basis of fiber length. In the present study, a long-fiber group and a short-fiber group, each with five BILs of Upland cotton, were selected from a BIL population between G. hirsutum and G. barbadense. Through a microarray-based comparative transcriptome analysis of developing fibers at 10 days postanthesis from the two groups, 1478 differentially expressed genes (DEGs) were identified. A total of 166 DEGs were then mapped to regions of fiber length quantitative trait loci (QTL), including 12 QTL hotspots and 2 QTL identified previously in the BIL population from which the two sets of BILs were selected. Several candidate genes possibly underlying the genetic control of fiber length differences between G. barbadense and G. hirsutum, including GhACX and GhKIF, were identified in this study. These results provide a list of positional candidate genes for the fine-scale mapping and map-based cloning of fiber length QTL, which will facilitate targeted gene transfer from G. barbadense to Upland cotton to further improve fiber quality.

Variations in the Components and Antioxidant and Tyrosinase Inhibitory Activities of Styphnolobium japonicum (L.) Schott Extract during Flower Maturity Stages.

Styphnolobium japonicum (L.) Schott is widely cultivated in China, and its flowers and flower buds (FFB-SJ) are commonly used as traditional Chinese medicine. This work aimed to assess variations in the chemical components and antioxidant and tyrosinase inhibitory activities of S. japonicum extract during five flower maturity stages (ES1-ES5). The results showed that the contents of total flavonoids, rutin, and narcissin were highest at ES1, whereas the contents of quercetin and isorhamnetin were highest at ES3. ES1 presented considerable antioxidant activities in terms of reducing power (RP) and 1,1-diphenyl-2-picrylhydrazyl radical (DPPH. ) and hydroxyl radical (. OH) scavenging capacity, whereas ES3 showed excellent tyrosinase inhibitory activity and 2,2'-azinobis(3-ethylbenzothiazoline-6-sulfonic acid) radical (ABTS.+ )- and O2 .- -scavenging capacity. Rutin and quercetin are the main bioactive components of FFB-SJ with antioxidant and tyrosinase inhibition, and the immature flower buds of S. japonicum (S2 and S3) with excellent biological activities and relatively high extract yields were the best for product development.

[Diversity of culturable fungi isolated from Coptis chinensis rot root in Shizhu city of Chongqing].

Root rot disease restricts the Coptis chinensis industry in Shizhu of Sichuan province. To disclose fungi composition and pathogen in rot root,so as to prevent and treat the root rot disease,the C. chinensis rot root of 5 years from 4 areas in Shizhu were collected in 3 seasons respectively. The fungi were isolated and molecularly and morphological identified,followed with population statistics. 437 fungi were isolated,belonging to 5 subphylum,11 classes,16 orders,22 families and 28 genus respectively. There are great difference among the fungi compositions of different area,year and sampling season,while there was no obvious variation rule. Ilyonectria sp.,Pythium sp.,Phoma sp,Trichoderma sp.are dominant genus,while Pythium sp.,Ilyonectria sp.,Phoma sp.,Fusarium sp. may contain root rot pathogen. Antagonistic bacteria may be screened from the strains of Trichoderma sp. isolated.

[Transcriptome analysis reveals candidate genes involved in flavonols biosyhthesis in Sophora japonica].

In order to study the pathways of biosynthesis of flavonoids in Sophora japonica, 113 797 unigenes were obtained by Trinity software, with an average length of 803 bp, of which 72 752 unigenes were obtained from the database by high-throughput sequencing, and a total of 38 891 SSR loci were searched. Through the metabolic pathway analysis, we found that there were 135 unigenes involved in the biosynthesis of flavonoids and 959 unigene involved in other secondary metabolic pathways. Further analysis of genes involved in rutin biosynthesis revealed that 24 were associated with CHS, 52 were associated with FLS, and 11 were associated with UFGT. The obtained data of S. japonica transcriptome lays the foundation for studying the pathways of biosynthesis of flavonoids in S. japonica and provides theoretical basis for the formation of the quality of S. japonica.

[Research for dynamic changes of growth and alkaloids of Coptis chinensis].

With Coptis chinensis in high-yielding soil as the object,the growth regularity of plant and dynamic change of alkaloid content was studied. The plant growth model of C. chinensis was constructed. The plant height equation was y=3.030 9+0.732 6x-0.009 6x²,the number of leaves equation was y=111.882 6-2 234.881 7/x+15 218.960 8/x²-31 740.960 8/x³,the leaf area equation was y=-217.136 1+30.552 2x-0.359 0x²,the roots talk biomass equation was y=-2.748 8+0.210 3x+0.006 4x²,the number of rootstalk equation was y=-1.246 0+0.192 6x+0.000 8x²,the fibrous root biomass equation was y=-4.973 5+0.589 4x -0.002 6x². The results indicated that the number of leaves and leaf area were increasing continuously after seedling transplanting,the leaf area of 3-year-old C. chinensis reached a maximum value of 425.83 cm²/plant,after declining.The number of leave of 5-year-old C. chinensis reached a maximum value of 70.91. With the increasing of years of growth, the number of rootstalk and rootstalk biomass of C. chinensis was increasing continuously. The biomass growth of 3-year-old and 4-year-old rootstalk was the fastest in the whole development stage of C. chinensis,the annual increase of more than 300%. The change curve of rootstalk number, rootstalk biomass and fibrous root biomass in the whole growth stage was a s-type.The dry matter partition of leafwas the highest in 1-year-old C. chinensis, and then gradually decreased,the change trend of dry matter partition of rootstalk was just the opposite, the dry matter partition of fibrous root increases with the increase of the growing year, reaching the maximum value in 3-year-old, then gradually lower trend. The root-shootratio of 1-year-old C. chinensis was the smallest, then gradually increases, the growth center gradually shifted to the roots from stems and leaves, The weight of underground part of 3-year-old C. chinensis exceeded the aboveground part, the 5-year-old C. chinensis root-shoot ratio reached the maximum value of 1.91:1.With the increasing of years of growth, the contents of coptisine, berberine, epiberberine and palmatine in rootstalk was increasing continuously. The jatrorrhizine content in 2-year-old C. chinensis was significantly lower than that in other years, the content was no significant change after that. The columbamine content reached a maximum value in 3-year-old C. chinensis,then the decreased gradually. The content of magnoflorine gradually increased and reached maximum value in 5-year-old C. chinensis.

The increased expression of follicle-stimulating hormone leads to a decrease of fecundity in transgenic Large White female pigs.

Follicle-stimulating hormone (FSH) is a pituitary gonadotropin regulating reproduction in mammals. Overexpression of the exogenous FSHα/ß genes from Chinese Erhualian pigs improved female fecundity of transgenic (TG) mice and male spermatogenesis ability of Large White TG boars. Here, we investigated the impact of the exogenous FSHα/ß genes on female reproductive performance of Large White TG pigs. First, we identified the integration site of the exogenous FSHα/ß genes at 140,646,456 bp on chromosome 9 in these TG pigs using whole-genome sequencing. Then, we showed that TG gilts had higher levels of serum FSH and FSHß protein in pituitary while had a potentially lower number of born piglets than their wild-type half sibs. TG gilts grew healthily and normally without significant difference in growth and health parameters as compared to WT gilts. The expression levels of FSHR, LHR, ESR1 and ESR2 were significantly lower in TG gilts than in WT gilts at the age of 300 days. Taken together, we proposed that the overexpressed FSHα/ß transgenes could cause deteriorate fecundity via disturbing the normal expression of the endogenous reproduction-related genes in female pigs. Our findings provide insight into the effect of overexpression of FSHα/ß on female reproduction performance in pigs.

[Research on bacteria microecology in root rot rhizosphere soil of Coptis chinensis produced in Shizhu city].

Illumina Hiseq 2500 high-throughput sequencing platform was used to study the bacteria richness and diversity, the soil enzyme activities, nutrients in unplanted soil, root-rot and healthy rhizophere soil of Coptis chinensis for deeply discussing the mechanism of the root-rot of C. chinensis. The high-throughput sequencing result showed that the artificial cultivation effected the bacteria community richness and diversity. The bacteria community richness in healthy and diseased rhizosphere soil showed significant lower than that of in unplanted soil (P<0.05) and declined bacteria diversity. The bacteria community richness in root-rot rhizosphere soil increased significantly than that of health and unplanted soil and the diversity was lower significant than that of unplanted soil (P<0.05). The results of soil nutrients and enzyme activities detected that the pH value, available phosphorus and urease activity decreased and the sucrase activity increased significantly (P<0.05). The content of organic carbon and alkaline hydrolysis nitrogen the catalase and urease activity in root rot soil samples was significantly lower than that of healthy soil samples (P<0.05). However, the contents of available phosphorus and available potassium were significantly in root-rot sample higher than that of healthy soil samples (P<0.05). Comprehensive analysis showed that the artificial cultivation declined the bacteria community richness and diversity. The bacteria community richness decreased significantly and the decreased diversity may be the cause of the root-rot. Meanwhile, the decrease of carbon and the catalase activity may be another cause of the root-rot in C. chinensis produced in Shizhu city, Chongqing province.

[Transcriptome characterization for Scrophularia ningpoensis based on high-throughput sequencing technology and related genes for synthesis of terpenoid compounds].

To investigate the profile of gene function and search for SSR, a new technology of high-throughput Solexa/Illumina sequencing was used to generate the root transcriptome of Scrophularia ningpoensis, and 65 602 036 raw reads were obtained. Based on the bioinformatics analysis and Trinity, 73 983 unigenes were obtained with an average length of 823 bp. The comparison of sequence homology in database showed that 56 389 unigenes had different degrees of homology. A total of 520 metabolic pathways related genes and 191 relDODO transcription factors were identified by the Swiss-Prot, GO, KEGG and COG.The 11 659 SSRs were found by MISA and the highest frequency was AG/CT. In this study, we obtained numerous SSRs to provide references for the study of functional gene cloning and genetic diversity of S. ningpoensis. The key genes involved in the secondary metabolism are the basis for the study of biosynthesis and regulatory mechanism of the secondary metabolites.

[Investigate optimum conditions and determinate changes of ß-glucosidase activity in Scrophularia root under different drying conditions].

To explore the optimum conditions of ß-glucosidase activity in Scrophularia root by using pNPG method. The extraction conditions and reaction conditions (such as extraction liquid type, reaction system, reaction time, temperature, and substrate concentration) were screened by using monofactorial experiment and homogeneous design. Then the changes of ß-glucosidase activity in Scrophularia root were detected at the drying temperature of 40-100 ℃. The results showed that citric acid phosphate buffer had better extraction effect, and the maximum absorbance produced by enzymatic reaction was present at 50 ℃ environment after reaction for 30 min. Homogeneous design experiment determined that the optimal conditions were as follows: optimal extraction liquid pH 7.0; enzymatic reaction system pH 6.0; substrate concentration 20 mmol•L⁻¹. The change of enzyme activity was affected by drying temperature and water loss rate. In the drying temperature of 60-100 ℃, the enzyme activity was reduced rapidly with the increase in water loss rate, while the activity was seen even with 0% of water at 40 and 50 ℃. This study has laid the theoretical foundation for research of hydrolysis mechanism of iridoid glycosides and optimum drying process.