Hong Yu scite author profile

FSH, a glycoprotein hormone, and the FSH receptor (FSHR), a G protein-coupled receptor, play central roles in human reproduction. We report the crystal structure of FSH in complex with the entire extracellular domain of FSHR (FSHR ED ), including the enigmatic hinge region that is responsible for signal specificity. Surprisingly, the hinge region does not form a separate structural unit as widely anticipated but is part of the integral structure of FSHR ED . In addition to the known hormone-binding site, FSHR ED provides interaction sites with the hormone: a sulfotyrosine (sTyr) site in the hinge region consistent with previous studies and a potential exosite resulting from putative receptor trimerization. Our structure, in comparison to others, suggests FSHR interacts with its ligand in two steps: ligand recruitment followed by sTyr recognition. FSH first binds to the high-affinity hormone-binding subdomain of FSHR and reshapes the ligand conformation to form a sTyr-binding pocket. FSHR then inserts its sTyr (i.e., sulfated Tyr335) into the FSH nascent pocket, eventually leading to receptor activation.F SH is a gonadotropin that stimulates steroidogenesis and gametogenesis in the gonads. Secreted by the anterior pituitary gland, FSH regulates the menstrual cycle and ovarian follicular maturation in women and supports sperm production in men. FSH acts by binding to the FSH receptor (FSHR) on the granulosa cell surface in ovaries and the Sertoli cell surface in testes. The stimulated receptor leads to the dissociation of α-and βγ-subunits of G protein heterotrimer inside the cell. The α-subunit activates adenylyl cyclase, resulting in an increase of cAMP levels, and ultimately leads to the increased steroid production that is necessary for follicular growth and ovulation in women. The free βγ dimers recruit G protein-coupled receptor (GPCR) kinases to the receptor, which, in turn, lead to the recruitment of β-arrestin to the receptor (1). FSH is used clinically for controlled ovarian stimulation in women treated with assisted reproductive technologies and also for the treatment of anovulatory infertility in women and hypogonadotropic hypogonadism in men. The central role of FSH in human reproduction makes its receptor a unique pharmaceutical target in the field of fertility regulation (2-4).The glycoprotein hormone (GPH) family has four members: FSH; two other pituitary hormones, luteinizing hormone and thyroid-stimulating hormone (TSH); and one placental hormone, chorionic gonadotropin. The four members are homologous in sequence, structure, and function. Each member is a heterodimer composed of a common α-subunit and a hormone-specific β-subunit. The crystal structures of FSH and human CG (hCG) revealed that both α-and β-subunits adopt similar folds of cystineknot architecture (5-7). The assembled α-and β-heterodimers bind to their respective receptors with high affinity and hormone specificity, resulting in similar signaling pathways but distinct biological responses.

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Riemann Surfaces of Carbon as Graphene Nanosolenoids

Sadrzadeh

et al. 2015

Nano Lett.

105

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Traditional inductors in modern electronics consume excessive areas in the integrated circuits. Carbon nanostructures can offer efficient alternatives if the recognized high electrical conductivity of graphene can be properly organized in space to yield a current-generated magnetic field that is both strong and confined. Here we report on an extraordinary inductor nanostructure naturally occurring as a screw dislocation in graphitic carbons. Its elegant helicoid topology, resembling a Riemann surface, ensures full covalent connectivity of all graphene layers, joined in a single layer wound around the dislocation line. If voltage is applied, electrical currents flow helically and thus give rise to a very large (∼1 T at normal operational voltage) magnetic field and bring about superior (per mass or volume) inductance, both owing to unique winding density. Such a solenoid of small diameter behaves as a quantum conductor whose current distribution between the core and exterior varies with applied voltage, resulting in nonlinear inductance.

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Carrier Delocalization in Two-Dimensional Coplanar p–n Junctions of Graphene and Metal Dichalcogenides

Kutana

Yakobson

2016

Nano Lett.

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With the lateral coplanar heterojunctions of two-dimensional monolayer materials turning into reality, the quantitative understanding of their electronic, electrostatic, doping, and scaling properties becomes imperative. In contrast to traditional bulk 3D junctions where carrier equilibrium is reached through local charge redistribution, a highly nonlocalized charge transfer (trailing off as 1/x away from the interface) is present in lateral 2D junctions, increasing the junction size considerably. The depletion width scales as p(-1), while the differential capacitance varies very little with the doping level p. The properties of lateral 2D junctions are further quantified through numerical analysis of realistic materials, with graphene, MoS2, and their hybrid serving as examples. Careful analysis of the built-in potential profile shows strong reduction of Fermi level pinning, suggesting better control of the barrier in 2D metal-semiconductor junctions.

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Evidence for Follicle-stimulating Hormone Receptor as a Functional Trimer

Jiang

Fischer

Chen

et al. 2014

Journal of Biological Chemistry

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Hong Yu

Structure of follicle-stimulating hormone in complex with the entire ectodomain of its receptor

Riemann Surfaces of Carbon as Graphene Nanosolenoids

Carrier Delocalization in Two-Dimensional Coplanar p–n Junctions of Graphene and Metal Dichalcogenides

Evidence for Follicle-stimulating Hormone Receptor as a Functional Trimer

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