Genome sequencing identified novel mechanisms underlying virescent mutation in upland cotton Gossypiuma hirsutum.

BACKGROUND: Virescent mutation broadly exists in plants and is an ideal experimental material to investigate regulatory mechanisms underlying chlorophyll synthesis, photosynthesis and plant growth. Up to date, the molecular mechanisms in two virescent mutations have been clarified in cottons (Gossypiuma hirsutum). A virescent mutation has been found in the cotton strain Sumian 22, and the underlying molecular mechanisms have been studied. METHODS: The virescent mutant and wild type (WT) of Sumian 22 were cross-bred, and the F1 population were self-pollinated to calculate the segregation ratio. Green and yellow leaves from F2 populations were subjected to genome sequencing and bulked-segregant analysis was performed to screen mutations. Real-time quantitative PCR (RT-qPCR) were performed to identify genes in relations to chlorophyll synthesis. Intermediate products for chlorophyll synthesis were determined to validate the RT-qPCR results. RESULTS: The segregation ratio of green and virescent plants in F2 population complied with 3:1. Compared with WT, a 0.34 Mb highly mutated interval was identified on the chromosome D10 in mutant, which contained 31 genes. Among them, only ABCI1 displayed significantly lower levels in mutant than in WT. Meanwhile, the contents of Mg-protoporphyrin IX, protochlorophyllide, chlorophyll a and b were all significantly lower in mutant than in WT, which were consistent with the inhibited levels of ABCI1. In addition, a mutation from A to T at the -317 bp position from the start codon of ABCI1 was observed in the genome sequence of mutant. CONCLUSIONS: Inhibited transcription of ABCI1 might be the mechanism causing virescent mutation in Sumian 22 cotton, which reduced the transportation of protoporphyrin IX to plastid, and then inhibited Mg-protoporphyrin IX, Protochlorophyllide and finally chlorophyll synthesis. These results provided novel insights into the molecular mechanisms underlying virescent mutation in cotton.

Clinicopathological correlations of peritoneal endometriosis and deep infiltrating endometriosis.

OBJECTIVE: The present study aims to investigate the clinical and histopathological features of peritoneal endometriosis (PEM) and deep infiltrating endometriosis (DIE). METHODS: A total of 100 patients with PEM and DIE admitted to Dalian Women and Children's Hospital/Dalian Women and Children's Medical Center between October 2018 and December 2021 were selected as the study subjects. One hundred and thirty-one PEM specimens and 37 DIE were collected, 22 cases of these patients' eutopic endometrium were used as control (15 in PEM, seven in DIE). The present study mainly analysed the pelvic distribution, the histopathological and immunohistochemical features and peritoneal invasion of PEM and DIE. RESULTS: The main distribution of PEM and DIE was located in the posterior pelvic cavity (p < .001). The histopathological characteristics of different PEM forms were different: the contents of endometrioid glands, endometrioid stroma, smooth muscle, fibrous tissue and blood vessels in different lesions were statistically significant (all p < .050). Estrogen receptor (ER) of PEM and DIE was highly expressed in endometrioid glandular epithelium and endometrioid stroma, without statistical significance (p = .330/.113). Progesterone receptor (PR) was also highly expressed in endometrioid glandular epithelium and endometrioid stroma without statistical significance (p = .757/.798). Ki-67 expression of DIE in endometrioid glandular epithelium was significantly higher than that in brown and white lesions (p < .001), while its expression in the endometrioid stroma was not statistically significant in red lesions (p = .070), but higher than that in other PEM lesions (p < .001). Different morphological lesions had different invasiveness rates and depths of invasion to the peritoneum. White lesions had a deeper subperitoneal invasion level than transparent and vesicular lesions. CONCLUSIONS: Although different morphological appearance of PEM is a degenerative process, some active brown lesions of PEM have invasive effects during the process and may further develop into DIE. PEM and DIE may be different developmental stages of the same disease.

In summary, PEM is a progressive disease, and its different morphological appearance reflects different stages of lesion development.Ectopic endometrial cells have a destructive effect on the peritoneal structures; as the lesion progresses, it continuously infiltrates the subperitoneum.PEM and DIE are different development stages of the same disease. The homology of the two lesions has yet to be explored in terms of pathogenesis.

[Effects of soil salinity on Bt protein content and nitrogen metabolic physiology in boll shell of Bt cotton]. / 土壤盐分对Bt棉铃壳中Bt蛋白含量和氮代谢生理的影响.

In order to clarify the effects of soil salinity on the insect-resistance of boll in transgenic Bt cotton, potted plants of two Bt cotton cultivars Xinmian 33B (salt-sensitive) and Zhong 07 (salt-tolerant) were exposed to five levels of soil salinity (0, 0.15%, 0.30%, 0.45% and 0.60%). The results showed that Bt protein content of boll shell decreased with increasing soil salinity. Compared with the control (0% soil salinity level), the Bt protein content of boll shell decreased significantly when the soil salinity level was above 0.15% for Xinmian 33B and above 0.30% for Zhong 07. The reduction extent of Bt protein content of boll shell at 30 days post anthesis (DPA) was greater than that at 10 DPA under the same soil salinity level. Significant reductions of soluble protein contents, nitrate reductase (NR), and glutamate pyruvate transaminase (GPT) activities were observed when the boll shell Bt protein content was significantly reduced. The content of free amino acid, protease, and peptidase activity of boll shell significantly increased when the soil salinity level was above 0.30%. In conclusion, soil salinity affected boll shell nitrogen metabolism and reduced Bt protein synthesis. Middle and high soil salinity levels could enhance decomposition of Bt protein, which further decreases the expression level of insecticidal protein.

Alternating chiral selectivity of aldol reactions under the confined space of mesoporous silica.

The chiral selectivities were altered and high diastereo- and enantio-selectivities of the products were obtained in water medium without adding acid co-catalysts when a primary-tertiary diamine catalyst was immobilized on mesoporous SBA-15 to form a recyclable catalyst for the direct asymmetric aldol reaction of cyclohexanone with p-nitrobenzaldehyde.

Clinical value of hysteroscopy with narrow-band imaging in diagnosis of different endometrial lesions / 中国内镜杂志

Objective To study the clinical value of hysteroscopy with narrow-band imaging (NBI) in diagnosis of different endometrial lesions. Methods 148 patients suffered from abnormal uterine bleeding with hysteroscopy examination and observed under hysteroscopy with ordinary white light and the NBI model respectively. Suspicious lesions targeted biopsy and gave pathological examination. With pathological diagnosis as a golden standard, it evaluated the value of hysteroscopy with NBI in different type of endometrial lesions. Results Low-risk type of endometrial lesions gave priority to type II microvascular and high-risk type of endometrial lesions gave priority to type III ~ IV microvascular. Sensitivity of low-risk endometrial lesions under white light and NBI modes was 65.52% and 86.21% respectively (χ2 = 6.78, P = 0.009), the difference was statistically significant in the two modes. The diagnosis of endometrial lesions low-risk type with NBI mode had medium consistency compared with the pathological diagnosis (Kappa value was 0.617). Under white light and the NBI modes, the accuracy rate of diagnosis in high-risk endometrial lesions was 81.08% and 89.86% respectively (χ2 = 4.60, P = 0.032), sensitivity was 57.14%and 92.86% respectively (χ2 = 14.29, P = 0.000), negative predictive value was 84.21% and 96.91% (χ2 = 9.43, P = 0.002), the difference was statistically significant in the two modes. The specificity was 90.57% and 88.68%respectively (χ2 = 0.20, P = 0.652), positive predictive value was 70.59% and 76.47% (χ2 = 0.37, P = 0.544). There was no significantly difference between the two modes. The diagnosis of endometrial lesions in high-risk pattern with NBI mode had good consistency with pathological diagnosis (Kappa value was 0.766). Conclusion NBI can observe mucosal surface and deep microvascular morphology clearly. It could reduce the missed diagnosis of low-risk type of endometrial lesions and improve the accuracy in diagnosis of high-risk type of endometrial lesions with NBI mode. NBI is a novel and valuable technique in the diagnosis of different endometrial lesions.