Biochimica et biophysica acta. Proteins and proteomics最新文献_第9页

Investigation of adipocyte differentiation based on proteomics and intact N-glycopeptide modificationomics 基于蛋白质组学和完整 N-糖肽修饰组学的脂肪细胞分化研究。

IF 2.5 4区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Biochimica et biophysica acta. Proteins and proteomics

Pub Date : 2025-01-01 Epub Date: 2024-10-09 DOI: 10.1016/j.bbapap.2024.141052

Xin-Yu Li , Nuerbiye Nuermaimaiti , Xuanyu Meng , Xiaozheng Zhang , Aikedaimu Abudukeremu , Yihuai He , Wenting Ma , Xuelei Chen , Shangkun Li , Jiaxin Sun , Yaqun Guan

Objective

To investigate the role of N-glycosylation modification of proteins in adipocyte differentiation during the adipogenic process.

Methods

SVF cells and adipocytes were analyzed for proteomics and intact N-glycopeptide modificationomics.Differential expression of proteins, glycoforms, and sites between the two groups was screened and subjected to Gene Ontology (GO) functional enrichment analysis, KEGG pathway enrichment analysis, and protein-protein interaction (PPI) network analysis. The top 20 most significantly differentially expressed adipogenic differentiation-related proteins were identified, and the most pronouncedly altered proteins were analyzed for glycoforms, glycan chains, and sites.

Results

Proteomics analysis identified 39,392 peptides and 5208 proteins, while intact N-glycopeptide modification profiling identified 3293 intact glycopeptides, 426 proteins, and 161 glycan chains. Proteomics identified 2510 differentially expressed proteins, with CD36 (Cluster of Differentiation 36, CD36) significantly upregulated. In adipocytes, CD36 had 4 N-glycosylation sites: N79, N220, N320, N417, with N320 being a newly identified site. GO enrichment results indicated that CD36 is associated with fatty acid oxidation, lipid oxidation, and fatty acid uptake into cells.

Conclusion

Multiple proteins undergo N-glycosylation modification during adipocyte differentiation, with CD36, a fatty acid translocase, being significantly expressed in adipocytes. This suggests that N-glycosylation modification of CD36 may play a crucial role in adipocyte differentiation, providing a foundation for further investigation into the function of CD36 N-glycosylation in adipocyte differentiation.

目的：研究蛋白质的 N-糖基化修饰在脂肪形成过程中对脂肪细胞分化的作用：方法：对 SVF 细胞和脂肪细胞进行蛋白质组学和完整 N-糖基化肽修饰组学分析：筛选两组间差异表达的蛋白质、糖型和位点，并进行基因本体（GO）功能富集分析、KEGG通路富集分析和蛋白-蛋白相互作用（PPI）网络分析。确定了前 20 个差异表达最明显的脂肪生成分化相关蛋白质，并对变化最明显的蛋白质的糖型、糖链和位点进行了分析：蛋白质组学分析确定了 39392 个肽和 5208 个蛋白质，而完整的 N-糖肽修饰分析确定了 3293 个完整的糖肽、426 个蛋白质和 161 个糖链。蛋白质组学确定了 2510 个差异表达的蛋白质，其中 CD36（分化簇 36，CD36）显著上调。在脂肪细胞中，CD36有4个N-糖基化位点：在脂肪细胞中，CD36有4个N-糖基化位点：N79、N220、N320、N417，其中N320是新发现的位点。GO富集结果表明，CD36与脂肪酸氧化、脂质氧化和脂肪酸摄入细胞有关：结论：在脂肪细胞分化过程中，多种蛋白质都会发生 N-糖基化修饰，其中 CD36（一种脂肪酸转运酶）在脂肪细胞中表达显著。这表明 CD36 的 N-糖基化修饰可能在脂肪细胞分化过程中起着关键作用，为进一步研究 CD36 N-糖基化在脂肪细胞分化中的功能奠定了基础。

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引用次数: 0

Structural insights into the mechanism underlying the dual cofactor specificity of glyoxylate reductase from Acetobacter aceti in the β-hydroxyacid dehydrogenase family 从结构上揭示β-羟基酸脱氢酶家族中乙酸醋酸杆菌乙醛酸还原酶的双辅助因子特异性机制。

IF 2.5 4区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Biochimica et biophysica acta. Proteins and proteomics

Pub Date : 2025-01-01 Epub Date: 2024-10-03 DOI: 10.1016/j.bbapap.2024.141051

Toma Rani Majumder , Takuya Yoshizawa , Masao Inoue , Riku Aono , Hiroyoshi Matsumura , Hisaaki Mihara

The β-hydroxyacid dehydrogenase family exhibits diverse cofactor preferences: some enzymes favor NAD, others favor NADP, and a subset can utilize both NAD and NADPH. Glyoxylate reductase from Acetobacter aceti JCM 20276 (AacGR) exhibits a dual cofactor specificity for NADPH and NADH in its catalytic reduction of glyoxylate to glycolate. In contrast to conventional cofactor-discriminating motifs, NRX and DXX, found in NADP- and NAD-specific enzymes, respectively, AacGR has a TPS motif in the equivalent position. Here we report X-ray crystallographic analysis of AacGR in its ligand-free form, and in complexes with NADPH and NADH, revealing critical interactions: Ser41 of the TPS motif interacted with the 2′-phosphate group of NADPH, while no analogous interaction occurred with the ribose hydroxy groups of NADH. Moreover, the TPS motif resided within a characteristic β-turn-like structure adjacent to a long flexible loop. Site-directed mutagenesis and kinetic analyses suggest that Ser41 facilitates NADPH binding, while the lack of a direct interaction of the TPS motif with NADH may allow for NADH utilization. The conformational dynamics of the TPS-containing β-turn-like structure along with the flexible loop likely govern the dual cofactor specificity and catalytic turnover of AacGR.

β-羟基酸脱氢酶家族表现出多种多样的辅助因子偏好：一些酶偏好 NAD，另一些则偏好 NADP，还有一部分既能利用 NAD 也能利用 NADPH。醋酸纤维菌 JCM 20276（AacGR）的乙醛酸还原酶在催化乙醛酸还原为乙醇酸的过程中，表现出对 NADPH 和 NADH 的双重辅助因子特异性。与分别存在于 NADP 和 NAD 特异性酶中的传统辅因子区分基团 NRX 和 DXX 不同，AacGR 在同等位置上具有一个 TPS 基团。在这里，我们报告了对无配体形式的 AacGR 以及 AacGR 与 NADPH 和 NADH 复合物的 X 射线晶体学分析，揭示了关键的相互作用：TPS 主题的 Ser41 与 NADPH 的 2'- 磷酸基团相互作用，而与 NADH 的核糖羟基则没有类似的相互作用。此外，TPS基序位于一个特征性的β-turn-like结构中，毗邻一个长的柔性环。定点突变和动力学分析表明，Ser41 有助于 NADPH 的结合，而 TPS 基序与 NADH 之间缺乏直接相互作用，这可能会导致 NADH 的利用。含 TPS 的 β 转环结构和柔性环的构象动力学可能决定了 AacGR 的双辅助因子特异性和催化周转。

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引用次数: 0

Assembly of Hydrophobin class I from Agaricus bisporus produced different amyloid-like fibrils 组装双孢蘑菇中的 I 类亲水蛋白可产生不同的淀粉样纤维。

IF 2.5 4区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Biochimica et biophysica acta. Proteins and proteomics

Pub Date : 2025-01-01 Epub Date: 2024-09-26 DOI: 10.1016/j.bbapap.2024.141048

Jesús Rojas-Osnaya, Hugo Nájera

This work studied the extraction, purification, characterization, and assembly of hydrophobin class I from Agaricus bisporus (ABH4). The highest soluble protein concentration was obtained from the pinhead, the extraction and purification were efficient for hydrophobin class I, obtaining a band of 12 kDa. The identified sequence of hydrophobin presented the eight cysteine residues; for the prediction of the structure, hydrophobin presented more alpha helix structures than beta sheets. It was observed that the hydrophobin managed to decrease and increase the contact angle in Teflon and glass, respectively, finding a micellar critical concentration of 221 μg mL⁻¹. ThT experiments demonstrated that the production of fibrils decreased at basic pH, while acidic and neutral pH favoured the formation of fibrils. Likewise, the addition of colloidal Teflon affects the formation of fibrils. Circular dichroism spectra proved that hydrophobin class I undergo changes in its secondary structure, increasing its alpha helix and beta sheet content after vortexing. It was observed that the analysis by scanning electron microscopy and atomic force microscopy of the hydrophobin produced different amyloid-like structures in glass and mica.

这项工作研究了从双孢蘑菇（ABH4）中提取、纯化、表征和组装疏水蛋白 I 类。从针头中获得的可溶性蛋白质浓度最高，对疏水素 I 的提取和纯化效率很高，获得了 12 kDa 的条带。经鉴定的疏水蛋白序列含有八个半胱氨酸残基；在结构预测方面，疏水蛋白的α螺旋结构多于β薄片结构。据观察，疏水素能分别减小和增大聚四氟乙烯和玻璃的接触角，发现胶束临界浓度为 221 μg mL-1。ThT 实验表明，在碱性 pH 值下，纤维的生成量减少，而酸性和中性 pH 值则有利于纤维的形成。同样，添加胶体聚四氟乙烯也会影响纤维的形成。圆二色性光谱证明，Ⅰ类疏水蛋白在涡旋后二级结构发生变化，α螺旋和β薄片含量增加。据观察，通过扫描电子显微镜和原子力显微镜分析，嗜水素在玻璃和云母中产生了不同的淀粉样结构。

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引用次数: 0

Unlocking the wound-healing potential: An integrative in silico proteomics and in vivo analysis of Tacorin, a bioactive protein fraction from Ananas comosus (L.) Merr. Stem 打开伤口愈合的潜力：一个集成的硅蛋白质组学和体内分析Tacorin，一个生物活性蛋白组分，从Ananas comosus （L.）稳定。茎

IF 2.5 4区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Biochimica et biophysica acta. Proteins and proteomics

Pub Date : 2025-01-01 Epub Date: 2024-11-26 DOI: 10.1016/j.bbapap.2024.141060

Puji Rahayu , Doni Dermawan , Florensia Nailufar , Erna Sulistyaningrum , Raymond R. Tjandrawinata

Tacorin, a bioactive protein fraction derived from pineapple stem (Ananas comosus), has emerged as a promising therapeutic agent for wound healing. This study employs an integrated approach, combining in silico proteomics and in vivo investigations, to unravel the molecular mechanisms underlying Tacorin's wound healing properties. In the domain of in silico proteomics, the composition of Tacorin is elucidated through LC/MS-MS protein sequencing, revealing ananain (23.77 kDa) and Jacalin-like lectin (14.99 kDa) as its predominant constituents. Molecular protein-protein docking simulations unveil favorable interactions between Tacorin's components and key regulators of wound healing, including TGF-β, TNF-α, and MMP-2. The calculated free binding energies indicate strong binding affinities between Tacorin proteins and their target receptors. Specifically, ananain demonstrates a binding affinity of −12.2 kcal/mol with TGF-β, suggesting its potential as a potent activator of TGF-β-mediated signaling, while Jacalin-like lectin exhibits the most favorable binding affinity of −8.7 kcal/mol with TNF-α. Subsequent 100 ns molecular dynamics (MD) simulations provide insights into the dynamic behavior and stability of Tacorin-receptor complexes, shedding light on the molecular determinants of Tacorin's therapeutic effects. Complementing the in silico analyses, in vivo studies evaluate Tacorin's efficacy in wound healing using skin and uterine incision models. Tacorin treatment accelerates wound closure and promotes tissue repair in both models, as evidenced by macroscopic observations and histological assessments. Overall, this study provides compelling evidence of Tacorin's therapeutic potential in wound healing and underscores the importance of elucidating its molecular mechanisms for further development and clinical translation.

塔可林是一种从菠萝茎（Ananas comosus）中提取的生物活性蛋白，已成为一种有前景的伤口愈合治疗剂。本研究采用综合方法，结合硅蛋白质组学和体内研究，揭示他可林伤口愈合特性的分子机制。在硅蛋白组学领域，通过LC/MS-MS蛋白测序对Tacorin的组成进行了分析，发现其主要成分为ananain （23.77 kDa）和jacalin样凝集素（14.99 kDa）。分子蛋白对接模拟揭示了Tacorin成分与伤口愈合关键调节因子（包括TGF-β、TNF-α和MMP-2）之间有利的相互作用。计算的自由结合能表明Tacorin蛋白与其靶受体之间具有很强的结合亲和力。具体而言，ananain与TGF-β的结合亲和力为- 12.2 kcal/mol，表明其可能是TGF-β介导的信号传导的有效激活剂，而jacalin样凝集素与TNF-α的结合亲和力为- 8.7 kcal/mol。随后的100ns分子动力学（MD）模拟提供了对他可林受体复合物的动态行为和稳定性的深入了解，揭示了他可林治疗效果的分子决定因素。作为计算机分析的补充，体内研究通过皮肤和子宫切口模型评估了他可林在伤口愈合中的功效。宏观观察和组织学评估证明，他可林治疗在两种模型中都能加速伤口愈合并促进组织修复。总的来说，这项研究提供了令人信服的证据，证明了他可林在伤口愈合中的治疗潜力，并强调了阐明其分子机制对进一步开发和临床转化的重要性。

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引用次数: 0

Identification of potential pharmacological chaperones that selectively stabilize mutated Aspartoacylases in Canavan disease 鉴定可选择性稳定卡纳万病中突变的天冬酰化酶的潜在药理伴侣。

IF 2.5 4区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Biochimica et biophysica acta. Proteins and proteomics

Pub Date : 2024-11-01 Epub Date: 2024-08-09 DOI: 10.1016/j.bbapap.2024.141043

Nitesh Kumar Poddar , Yasanandana S. Wijayasinghe , Ronald E. Viola

Canavan disease is caused by mutations in the ASPA gene, leading to diminished catalytic activity of aspartoacylase in the brain. Clinical missense mutations are found throughout the enzyme structure, with many of these mutated enzymes having not only decreased activity but also compromised stability. High-throughput screening of a small molecule library has identified several compounds that significantly increase the thermal stability of the E285A mutant enzyme, the most predominant clinical mutation in Canavan disease, while having a negligible effect on the native enzyme. Based on the initial successes, some structural analogs of these initial hits were selected for further examination. Glutathione, NAAG and patulin were each confirmed to be competitive inhibitors, indicating the binding of these compounds at the dimer interface or near the active site of the E285A enzyme. The experimental results were theoretically examined with the help of the docking analysis method. The structure activity-guided optimization of these compounds can potentially lead to potential pharmacological chaperones that could alleviate the detrimental effect of ASPA mutations in Canavan patients.

卡纳万病由 ASPA 基因突变引起，导致大脑中天冬酰化酶的催化活性降低。临床上发现的错义突变遍布整个酶结构，其中许多突变酶不仅活性降低，稳定性也受到影响。对小分子库进行高通量筛选后发现，有几种化合物能显著提高 E285A 突变酶的热稳定性（这是卡纳万病最主要的临床突变），而对原生酶的影响却微乎其微。在初步成功的基础上，我们选择了这些初步成功化合物的一些结构类似物进行进一步研究。经证实，谷胱甘肽、NAAG 和 patulin 都是竞争性抑制剂，表明这些化合物与 E285A 酶的二聚体界面或活性位点附近结合。实验结果借助对接分析方法进行了理论检验。在结构活性指导下对这些化合物进行优化，有可能开发出潜在的药理伴侣，从而减轻卡纳万患者因 ASPA 基因突变而产生的不利影响。

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引用次数: 0

Assigning roles in Chlamydomonas ribosome biogenesis: The conserved factor NIP7 确定衣藻核糖体生物发生过程中的角色：保守因子 NIP7

IF 2.5 4区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Biochimica et biophysica acta. Proteins and proteomics

Pub Date : 2024-11-01 Epub Date: 2024-08-30 DOI: 10.1016/j.bbapap.2024.141045

Raissa Ferreira Gutierrez , Heloisa Ciol , Angélica L. Carrillo Barra , Diego Antonio Leonardo , Juliana S. Avaca-Crusca , Otavio H. Thiemann , Nilson Ivo Tonin Zanchin , Ana P. Ulian Araujo

Ribosome biogenesis (RB) is a highly conserved process across eukaryotes that results in the assembly of functional ribosomal subunits. Studies in Saccharomyces cerevisiae and Homo sapiens have identified numerous RB factors (RBFs), including the NIP7 protein, which is involved in late-stage pre-60S ribosomal maturation. NIP7 expression has also been observed in Chlamydomonas reinhardtii, highlighting its evolutionary significance. This study aimed to characterize the function of the NIP7 protein from C. reinhardtii (CrNip7) through protein complementation assays and a paromomycin resistance test, assessing its ability to complement the role of NIP7 in yeast. Protein interaction studies were conducted via yeast two-hybrid assay to identify potential protein partners of CrNip7. Additionally, rRNA modeling analysis was performed using the predicted structure of CrNip7 to investigate its interaction with rRNA. The study revealed that CrNip7 can complement the role of NIP7 in yeast, implicating CrNip7 in the biogenesis of the 60S ribosomal subunit. Furthermore, two possible partner proteins of CrNip7, UNC-p and G-patch, were identified through yeast two-hybrid assay. The potential of these proteins to interact with CrNip7 was explored through in silico analyses. Furthermore, nucleic acid interaction was also evaluated, indicating the involvement of the N- and C-terminal domains of CrNIP7 in interacting with rRNA. Collectively, our findings provide valuable insights into the RBFs CrNip7, offering novel information for comparative studies on RB among eukaryotic model organisms, shedding light on its evolutionary conservation and functional role across species.

核糖体生物发生（RB）是真核生物中一个高度保守的过程，它导致功能性核糖体亚基的组装。对酿酒酵母和智人的研究发现了许多 RB 因子（RBFs），包括 NIP7 蛋白，它参与晚期前 60S 核糖体的成熟。在衣藻中也观察到了 NIP7 的表达，凸显了其进化意义。本研究旨在通过蛋白质互补试验和对霉素抗性试验，评估来自莱茵衣藻的 NIP7 蛋白（CrNip7）对酵母中 NIP7 作用的互补能力，从而确定其功能特征。通过酵母双杂交试验进行了蛋白质相互作用研究，以确定 CrNip7 的潜在蛋白质伙伴。此外，还利用 CrNip7 的预测结构进行了 rRNA 建模分析，以研究其与 rRNA 的相互作用。研究发现，CrNip7 可以补充 NIP7 在酵母中的作用，表明 CrNip7 与 60S 核糖体亚基的生物发生有关。此外，通过酵母双杂交实验还发现了CrNip7的两个可能伙伴蛋白UNC-p和G-patch。这些蛋白与CrNip7相互作用的潜力通过硅学分析进行了探讨。此外，还对核酸相互作用进行了评估，结果表明 CrNIP7 的 N 端和 C 端结构域参与了与 rRNA 的相互作用。总之，我们的研究结果为研究 RBFs CrNip7 提供了有价值的见解，为真核模式生物中 RB 的比较研究提供了新的信息，揭示了它在不同物种间的进化保护和功能作用。

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引用次数: 0

Identification of the interfacial regions in misfolded transthyretin oligomers 识别折叠错误的转甲状腺素寡聚体中的界面区

IF 3.2 4区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Biochimica et biophysica acta. Proteins and proteomics

Pub Date : 2024-09-01 Epub Date: 2024-05-23 DOI: 10.1016/j.bbapap.2024.141027

Anvesh K.R. Dasari , Matthew F. Coats , Abdullah B. Ali , Kwang Hun Lim

Misfolding and aggregation of transthyretin (TTR) is associated with numerous ATTR amyloidosis. TTR aggregates extracted from ATTR patients consist of not only full-length TTR, but also N-terminally truncated TTR fragments that can be produced by proteolytic cleavage, suggesting the presence of multiple misfolding pathways. Here, we report mechanistic studies of an early stage of TTR aggregation to probe the oligomerization process for the full-length as well as N-terminally truncated TTR. Our kinetic analyses using size exclusion chromatography revealed that amyloidogenic monomers dissociated from wild-type (WT) as well as pathogenic variants (V30M and L55P) form misfolded dimers, which self-assemble into oligomers, precursors of fibril formation. Dimeric interfaces in the full-length misfolded oligomers were investigated by examining the effect of single-point mutations on the two β-strands (F and H). The single-point mutations on the two β-strands (E92P on strand F and T119W on strand H) inhibited the dimerization of misfolded monomers, while the TTR variants can still form native dimers through the same F and H strands. These results suggest that the two strands are involved in intermolecular associations for both native and misfolded dimers, but detailed intermolecular interactions are different in the two forms of dimers. In the presence of a proteolytic enzyme, TTR aggregation is greatly accelerated. The two mutations on the two β-strands, however, inhibited TTR aggregation even in the presence of a proteolytic enzyme, trypsin. These results suggest that the two β-strands (F and H) play a critical role in aggregation of the N-terminally truncated TTR as well.

转甲状腺素（TTR）的错误折叠和聚集与多种 ATTR 淀粉样变性病有关。从 ATTR 患者体内提取的 TTR 聚集物不仅包括全长 TTR，还包括可通过蛋白水解裂解产生的 N 端截短 TTR 片段，这表明存在多种错误折叠途径。在此，我们报告了对 TTR 聚合早期阶段的机理研究，以探究全长和 N 端截短 TTR 的寡聚过程。我们使用尺寸排阻色谱法进行的动力学分析表明，从野生型（WT）和致病变体（V30M 和 L55P）中分离出来的致淀粉样蛋白单体会形成折叠错误的二聚体，而这些二聚体会自我组装成寡聚体，即纤维形成的前体。通过检测两个 β 链（F 和 H）上单点突变的影响，研究了全长错误折叠低聚物中的二聚体界面。两条β链上的单点突变（F链上的E92P和H链上的T119W）抑制了折叠错误的单体的二聚化，而TTR变体仍然可以通过相同的F链和H链形成原生二聚体。这些结果表明，对于原生二聚体和折叠错误的二聚体，这两条链都参与了分子间的结合，但在两种形式的二聚体中，分子间相互作用的细节有所不同。在存在蛋白水解酶的情况下，TTR 的聚集会大大加快。然而，即使在有蛋白水解酶--胰蛋白酶存在的情况下，两条 β 链上的两个突变也能抑制 TTR 的聚集。这些结果表明，两条 β 链（F 和 H）在 N 端截短的 TTR 的聚集中也起着关键作用。

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引用次数: 0

Exploring liquid-liquid phase separation in the organisation of Golgi matrix proteins 探索高尔基体基质蛋白组织中的液-液相分离。

IF 2.5 4区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Biochimica et biophysica acta. Proteins and proteomics

Pub Date : 2024-09-01 Epub Date: 2024-06-23 DOI: 10.1016/j.bbapap.2024.141029

Luis Felipe S. Mendes , Carolina G. Oliveira , Kevin F. Simões , Emanuel Kava , Antonio J. Costa-Filho

The Golgi apparatus is a critical organelle in protein sorting and lipid metabolism. Characterized by its stacked, flattened cisternal structure, the Golgi exhibits distinct polarity with its cis- and trans-faces orchestrating various protein maturation and transport processes. At the heart of its structural integrity and organisation are the Golgi Matrix Proteins (GMPs), predominantly comprising Golgins and GRASPs. These proteins contribute to this organelle's unique stacked and polarized structure and ensure the precise localization of Golgi-resident enzymes, which is crucial for accurate protein processing. Despite over a century of research since its discovery, the Golgi architecture's intricate mechanisms still need to be fully understood. Here, we discuss that GMPs across different Eukaryotic lineages present a significant tendency to form biomolecular condensates. Moreover, we validated experimentally that members of the GRASP family also exhibit a strong tendency. Our findings offer a new perspective on the possible roles of protein disorder and condensation of GMPs in the Golgi organisation.

高尔基体是蛋白质分类和脂质代谢的关键细胞器。高尔基体的特征是其堆叠的扁平囊状结构，具有明显的极性，其顺式和反式面协调着各种蛋白质的成熟和运输过程。高尔基体结构完整性和组织的核心是高尔基体基质蛋白（GMPs），主要包括高尔基蛋白（Golgins）和高尔基体蛋白酶（GRASPs）。这些蛋白质促成了这一细胞器独特的堆叠和极化结构，并确保了高尔基驻留酶的精确定位，而这对于准确处理蛋白质至关重要。尽管自高尔基体被发现以来已经进行了一个多世纪的研究，但人们仍然需要充分了解高尔基体结构的复杂机制。在这里，我们讨论了不同真核生物系的 GMPs 有形成生物分子凝聚物的显著趋势。此外，我们还通过实验验证了 GRASP 家族成员也表现出强烈的倾向性。我们的发现为蛋白质紊乱和 GMPs 凝聚在高尔基体组织中的可能作用提供了一个新的视角。

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引用次数: 0

Kinetic characterization of the C-terminal domain of Malonyl-CoA reductase 丙二酰-CoA 还原酶 C 端结构域的动力学特征。

IF 2.5 4区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Biochimica et biophysica acta. Proteins and proteomics

Pub Date : 2024-09-01 Epub Date: 2024-07-15 DOI: 10.1016/j.bbapap.2024.141033

Mirela Tkalcic Cavuzic (Tkalčić Čavužić) , Amanda Silva de Sousa , Jeremy R. Lohman , Grover L. Waldrop

Malonyl-CoA reductase utilizes two equivalents of NADPH to catalyze the reduction of malonyl-CoA to 3-hydroxypropionic acid (3HP). This reaction is part of the carbon fixation pathway in the phototrophic bacterium Chloroflexus aurantiacus. The enzyme is composed of two domains. The C-terminal domain catalyzes the reduction of malonyl-CoA to malonic semialdehyde, while the N-terminal domain catalyzes the reduction of the aldehyde to 3HP. The two domains can be produced independently and retain their enzymatic activity. This report focuses on the kinetic characterization of the C-terminal domain. Initial velocity patterns and inhibition studies showed the kinetic mechanism is ordered with NADPH binding first followed by malonyl-CoA. Malonic semialdehyde is released first, while CoA and NADP⁺ are released randomly. Analogs of malonyl-CoA showed that the thioester carbon is reduced, while the carboxyl group is needed for proper positioning. The enzyme transfers the pro-S hydrogen of NADPH to malonyl-CoA and pH rate profiles revealed that a residue with a pK_a value of about 8.8 must be protonated for activity. Kinetic isotope effects indicated that NADPH is not sticky (that is, NADPH dissociates from the enzyme faster than the rate of product formation) and product release is partially rate-limiting. Moreover, the mechanism is stepwise with the pH dependent step occurring before or after hydride transfer. The findings from this study will aid in the development of an eco-friendly biosynthesis of 3HP which is an industrial chemical used in the production of plastics and adhesives.

丙二酰-CoA 还原酶利用两当量的 NADPH 催化丙二酰-CoA 还原成 3-羟基丙酸（3HP）。该反应是光营养细菌 Chloroflexus aurantiacus 碳固定途径的一部分。该酶由两个结构域组成。C 端结构域催化丙二酰-CoA 还原成丙二酸半醛，而 N 端结构域催化醛还原成 3HP。这两个结构域可以独立产生，并保持其酶活性。本报告主要介绍 C 端结构域的动力学特征。最初的速度模式和抑制研究表明，动力学机制是有序的，NADPH 首先结合，然后是丙二酰-CoA。丙二酰半醛首先释放，而 CoA 和 NADP+ 则随机释放。丙二酰-CoA 的类似物表明，硫酯碳被还原，而羧基则需要正确定位。该酶将 NADPH 的原-S 氢转移到丙二酰-CoA 上，pH 值速率曲线显示，pKa 值约为 8.8 的残基必须质子化才有活性。动力学同位素效应表明，NADPH 不具有粘性（即 NADPH 从酶中解离的速度快于产物形成的速度），而产物的释放部分限制了速率。此外，该机制是逐步进行的，与 pH 值有关的步骤发生在氢化物转移之前或之后。3HP 是一种用于生产塑料和粘合剂的工业化学品，本研究的发现将有助于开发 3HP 的生态友好型生物合成方法。

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Mapping the Periostin splice isoforms in atopic dermatitis and an in vitro asthma model – A multi-platform analysis using mass spectrometry and RT-qPCR 绘制特应性皮炎和体外哮喘模型中的Periostin剪接同工酶--利用质谱法和RT-qPCR进行的多平台分析。

IF 2.5 4区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Biochimica et biophysica acta. Proteins and proteomics

Pub Date : 2024-09-01 Epub Date: 2024-07-06 DOI: 10.1016/j.bbapap.2024.141031

Christian E. Rusbjerg-Weberskov , Anne Kruse Hollensen , Christian Kroun Damgaard , Marianne Bengtson Løvendorf , Lone Skov , Jan J. Enghild , Nadia Sukusu Nielsen

Periostin is a matricellular protein known to be alternatively spliced to produce ten isoforms with a molecular weight of 78–91 kDa. Within the extracellular matrix, periostin attaches to cell surfaces to induce signaling via integrin-binding and actively participates in fibrillogenesis, orchestrating the arrangement of collagen in the extracellular environment. In atopic diseases such as atopic dermatitis (AD) and asthma, periostin is known to participate in driving the disease-causing type 2 inflammation. The periostin isoforms expressed in these diseases and the implication of the alternative splicing events are unknown. Here, we present two universal assays to map the expression of periostin isoforms at the mRNA (RT-qPCR) and protein (PRM-based mass spectrometry) levels. We use these assays to study the splicing profile of periostin in AD lesions as well as in in vitro models of AD and asthma. In these conditions, periostin displayed overexpression with isoforms 3 and 5 standing out as highly overexpressed. Notably, isoforms 9 and 10 exhibited a divergent pattern relative to the remaining isoforms. Isoforms 9 and 10 are often overlooked in periostin research and this paper presents the first evidence of their expression at the protein level. This underlines the necessity to include isoforms 9 and 10 in future research addressing periostin splice isoforms. The assays presented in this paper hold the potential to improve our insight into the splicing profile of periostin in tissues and diseases of interest. The application of these assays to AD lesions and in vitro models demonstrated their potential for identifying isoforms of particular significance, warranting a further in-depth investigation.

据了解，骨膜增生蛋白是一种基质细胞蛋白，可通过交替剪接产生十种分子量为 78-91 kDa 的异构体。在细胞外基质中，骨膜增生蛋白附着在细胞表面，通过整合素结合诱导信号传导，并积极参与纤维生成，协调细胞外环境中胶原蛋白的排列。在特应性皮炎（AD）和哮喘等特应性疾病中，已知表皮生长因子参与驱动致病的 2 型炎症。在这些疾病中表达的表皮生长因子异构体以及替代剪接事件的影响尚不清楚。在这里，我们介绍了两种通用的检测方法，用于绘制在 mRNA（RT-qPCR）和蛋白质（基于 PRM 的质谱）水平上表达的骨膜增生蛋白异构体的图谱。我们利用这些检测方法研究了AD病变以及AD和哮喘体外模型中的包膜生长因子剪接概况。在这些条件下，包膜生长因子表现出过表达，其中同工酶 3 和 5 的过表达最为突出。值得注意的是，与其余同工酶相比，同工酶 9 和 10 表现出不同的模式。在包膜蛋白研究中，同工酶 9 和 10 经常被忽视，本文首次提出了它们在蛋白质水平表达的证据。这强调了在未来研究包膜蛋白剪接异构体时将异构体 9 和 10 包括在内的必要性。本文介绍的检测方法有可能提高我们对相关组织和疾病中包膜生长因子剪接概况的洞察力。将这些检测方法应用于AD病变和体外模型证明了它们在鉴定具有特殊意义的同工酶方面的潜力，值得进一步深入研究。

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引用次数: 0