{"type": "root", "children": [{"type": "p", "children": [{"type": "t", "text": "\nSERPINA7, located on the X‐chromosome, encodes thyroxine‑binding globulin (TBG), the principal transporter of thyroid hormones in human serum. Detailed analyses of its genomic organization have revealed that, despite belonging to the serpin family, its structure comprises five exons with characteristic cis‑regulatory elements (including TATA and CAAT boxes and a hepatocyte nuclear factor‑1 binding site) that ensure liver‑specific expression. These promoter regions have been further exploited in hepatic gene therapy to achieve persistent and high‑level expression of transgenes."}, {"type": "fg", "children": [{"type": "fg_fs", "start_ref": "1", "end_ref": "3"}]}, {"type": "t", "text": ""}]}, {"type": "t", "text": "\n\n"}, {"type": "p", "children": [{"type": "t", "text": "\nStructural and functional studies of TBG have demonstrated that its ability to bind and release thyroid hormones is tightly regulated by conformational changes. In particular, the transition from a “stressed” to a “relaxed” state—mediated by the insertion of the reactive center loop into β‑sheet A—leads to a decrease in thyroxine affinity. High‑resolution crystallographic investigations and targeted mutagenesis have pinpointed key allosteric interactions and residues critical for this process. Moreover, numerous mutations in SERPINA7—including splice site disruptions, missense substitutions, frameshift mutations, and compound hemizygous variants—have been identified as causes of inherited TBG deficiency. Such mutations may alter glycosylation sites or protein stability (as seen in variants like TBG‑Chicago with enhanced heat stability), thereby impacting thyroid hormone homeostasis despite normal free hormone and TSH levels."}, {"type": "fg", "children": [{"type": "fg_fs", "start_ref": "4", "end_ref": "15"}]}, {"type": "t", "text": ""}]}, {"type": "t", "text": "\n\n"}, {"type": "p", "children": [{"type": "t", "text": "\nBeyond its traditional role in thyroid hormone transport, alterations in TBG levels have emerged as potential biomarkers in other clinical settings. Elevated plasma TBG concentrations have been correlated with chronic obstructive pulmonary disease (COPD), where they are associated with impaired lung function and a higher risk of acute exacerbations. In parallel, investigations into partial TBG deficiency—utilizing approaches such as X‑chromosome inactivation analysis and mutant protein structural modeling—have expanded our understanding of the genetic and phenotypic diversity underlying thyroid hormone regulation."}, {"type": "fg", "children": [{"type": "fg_fs", "start_ref": "16", "end_ref": "18"}]}, {"type": "t", "text": ""}]}, {"type": "rg", "children": [{"type": "r", "ref": 1, "children": [{"type": "t", "text": "Y Hayashi, Y Mori, O E Janssen, et al. 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