Table 4_Epizootic shell disease induces systemic transcriptomic shifts in Homarus americanus, characterized by increased shell degradation and impaired energy metabolism across tis... by Minseo Kim (773205)

“…The expression of the anti-lipopolysaccharide factor gene was increased in all tissues, indicating a systemic immune response to bacterial infection. …”

Table 3_Epizootic shell disease induces systemic transcriptomic shifts in Homarus americanus, characterized by increased shell degradation and impaired energy metabolism across tis... by Minseo Kim (773205)

“…The expression of the anti-lipopolysaccharide factor gene was increased in all tissues, indicating a systemic immune response to bacterial infection. …”

Table 2_Epizootic shell disease induces systemic transcriptomic shifts in Homarus americanus, characterized by increased shell degradation and impaired energy metabolism across tis... by Minseo Kim (773205)

“…The expression of the anti-lipopolysaccharide factor gene was increased in all tissues, indicating a systemic immune response to bacterial infection. …”

Table 7_Epizootic shell disease induces systemic transcriptomic shifts in Homarus americanus, characterized by increased shell degradation and impaired energy metabolism across tis... by Minseo Kim (773205)

“…The expression of the anti-lipopolysaccharide factor gene was increased in all tissues, indicating a systemic immune response to bacterial infection. …”

Table 5_Epizootic shell disease induces systemic transcriptomic shifts in Homarus americanus, characterized by increased shell degradation and impaired energy metabolism across tis... by Minseo Kim (773205)

“…The expression of the anti-lipopolysaccharide factor gene was increased in all tissues, indicating a systemic immune response to bacterial infection. …”

Low temperature reduces byssus adhesion of highly invasive golden mussels: Influencing mechanisms and antifouling implications by Miaolian Zhang (21974951)

“…Our results showed that low-temperature exposures significantly reduced adhesion rates of golden mussels, primarily by limiting byssus production associated with impaired synthesis and secretion of byssal proteins and decreasing byssus breaking force. …”