Polyclonal Rabbit C5orf13 Antibody
- Known as:
- Polyclonal Rabbit C5orf13 Antibody
- Catalog number:
- KA0482
- Product Quantity:
- 100ul
- Category:
- -
- Supplier:
- KareBay
- Gene target:
- Polyclonal Rabbit C5orf13 Antibody
Related genes to: Polyclonal Rabbit C5orf13 Antibody
- Gene:
- NREP NIH gene
- Name:
- neuronal regeneration related protein
- Previous symbol:
- C5orf13
- Synonyms:
- P311, D4S114, PRO1873, PTZ17, SEZ17
- Chromosome:
- 5q22.1
- Locus Type:
- gene with protein product
- Date approved:
- 2003-02-17
- Date modifiied:
- 2015-08-25
Related products to: Polyclonal Rabbit C5orf13 Antibody
Related articles to: Polyclonal Rabbit C5orf13 Antibody
- Corneal fibrosis ranks among the foremost drivers of global vision loss and blindness, yet therapeutic options remain scarce. This study investigated neuronal regeneration-related protein (NREP), which is recognized by the N6-methyladenosine (m6A) modification reader protein YTH domain family member 1 (YTHDF1), in promoting corneal fibrosis in keratocytes. - Source: PubMed
Guan YiJing YapengYang ShumeiYan XinlinLi Xuan - Plants allocate nitrogen (N) and phosphorus (P) to green leaves through a cost-optimal trade-off between root acquisition and leaf resorption, which affects plant nutrient limitation and cycling. However, our understanding of the nature of this positive trade-off under nutrient limitation in forests with stand development under N deposition is limited. We carried out experiments along age sequences of 42, 55, and 65 in a forest under five N treatment levels (0, 5, 10, 15 and 20 g N m·yr). We multiplied a multivariate functional variable, INPS (the integral N: P stoichiometry of plants), which reflects the overall nutrient limitation in plants, to explore its response strategies under N treatment during stand development. We found that the forest experienced progressive N limitation with stand development under N deposition, as evidenced by the decreased N: P ratios across needles, twigs, and fine roots, and the whole plant (INPS). Thus, to cope with this progressive N limitation and maintain stoichiometric homeostasis, forest adopted divergent nutrient utilization strategies for N and P. Regarding the N, the NRE-N (nutrient resorption efficiency of N) did not decrease significantly as a coordinated response to the declining NAC-N (nutrient acquisition capacity of N) along the chronosequence. Conversely, for P, the relative P limitation weakened relative to N along the age sequence in forest led to a compensatory trade-off between NRE-P (nutrient resorption efficiency of P) and NAC-P (nutrient acquisition capacity of P), consistent with nutrient-economy and adaptive strategies. N deposition generally alleviated N limitations in forest yet significantly decreased the NRE-N and NRE-P across all age classes. However, the ratio of NRE-N: NAC-N exhibited a substantial increase along the chronosequence and negatively linearly correlated with the INPS. These findings indicate that NRE-N acts as a compensatory mechanism to offset age-related progressive stand-level N limitation. Our results suggest that resorption relieves nutrient limitations, a strategy used broadly by woody plants, providing a comprehensive framework for understanding forest adaptation strategies in a changing environment. - Source: PubMed
Publication date: 2026/03/07
Duan SonglanZhang YunxiangChang TianjinQiu WenhuiLi YusongZhang ZhihaoGuo Jinping - Male patients were twice as likely to develop gastric cancer (GC) compared to females, partly due to the protective effect of estrogen. However, the proportion of females increased in the young GC patients. - Source: PubMed
Luan XiaoyiZhao LuluWang WanqingNiu PenghuiHan XueWang ZerongZhang XiaojieZhao DongbingChen Yingtai - Action-detected two-dimensional electronic spectroscopy (A-2DES) provides valuable insights into ultrafast dynamics within functional materials and devices by measuring incoherent signals like photocurrent. This work details the implementation and optimization of a pulse-shaper-based A-2DES setup, focusing on methodological strategies crucial for acquiring high-fidelity data. We present a comprehensive analysis of phase modulation routines, elucidating the critical interplay between pattern parameters (N, n), pattern repetitions (N), laser repetition rate, and acousto-optic pulse shaper constraints (e.g., streaming rate, radio frequency generator nonlinearities). Utilizing a perovskite solar cell as a model system, we systematically identify and characterize significant inaccuracies inherent to A-2DES measurements. These include distortions originating from Fourier transform processing of improperly trimmed time-domain data (phase leakage), signal accumulation effects due to insufficient sample response discharge between pulse sequences at high repetition rates, and shortcomings induced by pulse shaper operation at elevated streaming powers. Crucially, we demonstrate robust data post-processing strategies, including precise data point selection for Fourier analysis and a phase correction routine, to mitigate these imperfections and retrieve accurate 2D spectra effectively. This rigorous methodological investigation and anomalous features characterization provide essential guidelines for optimizing pulse-shaper-based A-2DES experiments, ensuring data integrity and enabling reliable extraction of complex photophysical information in complex systems. - Source: PubMed
Amarotti EdoardoBolzonello LucaLee Sun-HoZigmantas DonatasPark Nam-Gyuvan Hulst NiekPullerits Tönu - We investigate the subjective experience of space around the visual blind spot area, the cortical representation of which is missing feedforward connectivity from one eye. We performed these experiments as part of an adversarial collaboration to test contrasting theories of consciousness; Integrated Information Theory (IIT), Predictive Processing Active Inference (AI), and Predictive Processing Neurorepresentationalism (NREP) accounts. According to the Integrated Information Theory of consciousness, non-activatable retinotopic cortical regions, such as the blind spot region for the ipsilateral eye, create a different cause-effect structure and therefore should contribute differently to the perceived quality of space of activatable retinotopic regions. The two Predictive Processing accounts, in contrast, posit that internal models will accommodate structural deviations around the blind spot based on the available sensory evidence (particulars of this accommodation differ between the two accounts). We present a series of paradigms in which participants evaluate distances and areas that either include the blind spot or not (without stimulating it directly), as well as illusory motion that is either adjacent to the blind spot or not. We model psychometric functions relating perceived and objective space. These models vary in terms of bias and precision according to the experimental conditions (blind spot involved vs. not involved, ipsilateral vs. contralateral eye), making it possible to quantify the potential disruption of subjective spatial extendedness induced by the blind spot. We present simulated results for each experiment corresponding to the predictions of each account and conclude by discussing challenges and plans for dissemination. - Source: PubMed
Publication date: 2026/01/29
Abbatecola ClementHart Bernard Marius 'tde la Cruz Belén M MontabesPetro Lucy SPennartz Cyriel M ATononi GiulioFriston Karl JHohwy JakobOlcese UmbertoBoly MelanieHaun Andrew MTripathy Srimant PCavanagh PatrickMuckli Lars F